CN113390241A - Intelligent moisture preservation dryer for building templates - Google Patents

Abstract

The invention discloses an intelligent moisture-preserving dryer for building templates, which belongs to the field of building template drying and comprises an intelligent moisture-preserving dryer body, wherein a pressure-bearing bottom plate is fixedly connected in the intelligent moisture-preserving dryer body, steam can be sprayed by a steam moisture-preserving pressure plate to form a steam moisture-preserving layer on the outer side of the intelligent moisture-preserving dryer body, so that the outer side of a building template plate is effectively moisturized, the loss efficiency of the water on the wall surface of the building template plate is reduced, the drying efficiency of the building template plate is effectively maintained, the gradient slope of the water content inside and outside the building template plate is effectively reduced, the condition that cracks appear on the wall surface of the building template plate is effectively avoided, the drying quality of the building template plate is improved, the precision and the service life of subsequent building templates are effectively ensured, and the building template plate is effectively prevented from deforming when being dried by generating pressing force on the building template plate by the steam moisture-, the flatness is improved.

Description

Intelligent moisture preservation dryer for building templates

Technical Field

The invention relates to the field of building template drying, in particular to an intelligent moisture-preserving dryer for a building template.

Background

The building formwork is a temporary supporting structure, which is manufactured according to the design requirements, so that the concrete structure and the members are formed according to the specified positions and geometric dimensions, the correct positions of the concrete structure and the members are kept, and the self weight of the building formwork and the external load acting on the building formwork are borne. The purpose of the template engineering is to ensure the quality and the construction safety of the concrete engineering, accelerate the construction progress and reduce the engineering cost.

The construction template has important influence on the quality control of the engineering in the engineering construction. The smoothness and flatness of the formwork surface will directly affect the flatness of the engineered concrete surface. Therefore, the template production needs to be controlled based on a strict production process, and the production process technology is improved in the links of raw materials, gluing, hot pressing, trimming and the like. In the production process of the building template, the cut plate needs to be dried to reduce the water in the plate, so that the phenomena of drying shrinkage, cracking, bending deformation, mildewing and the like in the later use process are avoided, and the construction precision and the service life of the building template are effectively guaranteed.

In the prior art, a dryer is usually used for carrying out hot drying treatment on the building template plate, but the wall surface of the building template plate is directly contacted with drying hot air when being dried, so that the drying speed of the building template plate is higher than the core position of the building template plate, and further the slope of the gradient of the water content inside and outside the building template plate is larger, so that cracks are easily generated on the wall surface of the building template plate, the drying quality of the building template plate is further reduced, and the precision and the service life of subsequent building templates are reduced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide an intelligent moisture-preserving dryer for building templates, which can spray steam when a building template plate is dried through a steam moisture-preserving pressure plate, so that the steam forms a steam moisture-preserving layer on the outer side of the building template plate, effectively preserve the moisture of the outer side of the building template plate, reduce the efficiency of losing wall surface moisture, effectively reduce the gradient slope of the water content inside and outside the building template plate while effectively maintaining the drying efficiency, effectively avoid the condition that cracks appear on the wall surface of the building template plate, further improve the drying quality of the building template plate, effectively ensure the precision and the service life of subsequent building templates, and effectively avoid the deformation of the building template plate during drying and improve the flatness of the building template plate through the pressing force of the steam moisture-preserving pressure plate.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

An intelligent moisture-preserving dryer for building templates comprises an intelligent moisture-preserving dryer body, wherein a pressure-bearing bottom plate is fixedly connected in the intelligent moisture-preserving dryer body, a steam circulation guide row positioned on the lower side of the pressure-bearing bottom plate is fixedly installed on the lower inner wall of the intelligent moisture-preserving dryer body, guide placement L-shaped plates are fixedly connected to the left end and the right end of the pressure-bearing bottom plate, a pressure plate driver is fixedly installed on the upper inner wall of the intelligent moisture-preserving dryer body, the lower end of the pressure plate driver is connected with a steam release sliding plate, and the lower end of the steam release sliding plate is fixedly connected with a steam moisture-preserving pressure plate matched with the pressure-bearing bottom plate;

the steam moisturizing device is characterized in that a steam cavity is formed in the steam moisturizing pressing plate, the upper end of the steam moisturizing pressing plate is fixedly connected with a steam concentrating pipe communicated with steam, the upper end of the steam concentrating pipe is communicated with the steam releasing sliding plate, the lower end and the peripheral side of the steam moisturizing pressing plate are respectively provided with a plurality of conical pressurizing spray holes communicated with the steam cavity, steam is sprayed by the steam moisturizing pressing plate when the building template plate is dried, so that the steam forms a steam moisturizing layer on the outer side of the steam, the outer side of the building template plate is effectively moisturized, the loss efficiency of water on the wall surface of the building template plate is reduced, the gradient slope of the water content inside and outside the building template plate is effectively reduced while the drying efficiency of the building template plate is effectively maintained, the condition that cracks appear on the wall surface of the building template plate is effectively avoided, the drying quality of the building template plate is improved, and the precision and the service life of a subsequent building template are effectively guaranteed, and the steam moisturizing pressing plate generates pressing force on the building template plate, so that the deformation of the building template plate during drying is effectively avoided, and the flatness of the building template plate is improved.

Further, set up the water storage chamber in the steam release slide, and the water storage chamber is connected with the water supply structure of intelligence desiccator body of moisturizing through the inlet tube, be provided with electric heating wire in the steam release slide, steam is concentrated the pipe upper end and is located water storage chamber upside to put through mutually with the water storage chamber, electric heating heats the water storage chamber, improves its inside efficiency of moisturizing water boiling, effectively keeps the continuous input of vapor, improves the effect of moisturizing.

Further, a plurality of deformation memory metal strips of L template inner wall fixedly connected with are placed to the direction, L template sliding fit's the clearance adjusting plate that moisturizes is placed with the direction to deformation memory metal strip other end fixedly connected with, at the continuous in-process that risees of this internal temperature of intelligence desiccator of moisturizing, deformation memory metal strip is heated and is produced memory deformation, and then drive the clearance adjusting plate that moisturizes and place L template and remove towards the direction for clearance increase between building templates panel and the clearance adjusting plate that moisturizes, the entering of the steam of being convenient for, effectively improve steam and moisturize the scope of action to building templates panel, improve its drying quality.

Furthermore, the equal fixedly connected with in both ends takes over the guide plate about the steam circulation guide row, take over the guide plate other end fixedly connected with a plurality of steam recovery pipes of arranging the looks switch-on with the steam circulation guide, steam recovery pipe upper end runs through intelligent desiccator body inner wall of moisturizing to cooperate with steam moisturizing clamp plate, steam circulation guide row upper end fixedly connected with a plurality of steam circulating pipes of arranging the looks switch-on with the steam circulation guide, and steam circulating pipe upper end runs through the pressure-bearing bottom plate, and steam circulation guide row can retrieve and circulate the steam that is located building templates panel upside, makes it constantly act on building templates panel, effectively reduces heat energy loss, improves the energy-concerving and environment-protective nature of intelligent desiccator body.

Further, inner wall fixedly connected with levels the arc strip under the steam cycle guide row, level arc strip upper end fixedly connected with elastic expansion hollow gas strip, a plurality of evenly distributed's flexible gas pocket has all been seted up to both ends and upper end about the elastic expansion hollow gas strip, the equal fixedly connected with in both ends and upper end piles up the mesh membrane about the elastic expansion hollow gas strip, and the elastic expansion hollow gas strip has elastic expansion nature, under the effect and the tensile of steam cycle direction subassembly, changes the volume and the form of the elastic expansion hollow gas strip for the elastic expansion hollow gas strip can produce corresponding suction or thrust through flexible gas pocket, effectively absorbs and carries steam, improves steam cycle efficiency.

Furthermore, the steam circulation guide assembly is connected inside the elastic telescopic hollow gas strip and comprises a strong magnetic push block, the left inner wall, the right inner wall and the upper inner wall of the elastic telescopic hollow gas strip are both connected with the strong magnetic push block, a support rod is fixedly connected between the front inner wall and the rear inner wall of the elastic telescopic hollow gas strip, the outer end of the support rod is rotatably connected with a steering mandrel, the upper end and the lower end of the steering mandrel are both fixedly connected with electromagnetic repulsion strips, the left end and the right end of the steering mandrel are both fixedly connected with a plurality of airflow steering fins, the magnetic force is generated by the electromagnetic repulsion strips, the thrust is generated on the strong magnetic push block which is opposite correspondingly, the elastic telescopic hollow gas strip is driven to generate corresponding telescopic action, the applicability of the elastic telescopic hollow gas strip is improved, the function conversion of the elastic telescopic hollow gas strip is effectively realized, and the suction force or the thrust generated by the elastic telescopic hollow gas strip is generated, make steam flow at its inside, and then turn to the fin through the air current and drive and turn to the dabber and rotate, and then change the effect direction that the electromagnetism repelled the strip, change the deformation direction of the flexible hollow gas strip of elasticity, when effectively driving steam and carrying out autonomous cycle, the input that effectively reduces kinetic energy in addition practices thrift limited resource, reduces the cost of manufacture of intelligence desiccator body of moisturizing, improves the dry feature of environmental protection of building templates panel.

Further, strong magnetism ejector pad is kept away from and is turned to dabber one end fixedly connected with and separate magnetism branch, it keeps away from and turns to dabber one end fixedly connected with arc fin to separate magnetism branch, arc fin and the hollow gas strip fixed connection of elastic expansion, separate magnetism branch and effectively carry out the separation to the magnetic force of strong magnetism ejector pad, effectively avoid long-time use in the hollow gas strip of elastic expansion area magnetism, make it produce magnetic adsorption at deformation process, reduce the condition of its elastic potential energy to through the area of action of the strong magnetism ejector pad of arc fin increase, and then increase the deformation scope of the hollow gas strip of elastic expansion, improve the efficiency of steam recovery circulation.

Further, the electromagnetism is repelled the strip and is passed through the control box electric connection of wire with intelligent desiccator body of moisturizing, intelligence desiccator body front end is articulated to have sealed heat preservation door, sealed heat preservation door is close to intelligence desiccator body one end fixed mounting of moisturizing and is repelled strip matched with humidity detection probe with the electromagnetism, and humidity detection probe passes through the control box electric connection of wire with intelligent desiccator body of moisturizing, detects this internal humidity of intelligence desiccator through humidity detection probe, effectively improves the precision of steam effect of moisturizing, and then improves the intelligent degree of intelligence desiccator body, improves the drying quality of building templates panel.

In addition, the invention also discloses a moisture-preserving and drying method for the building template, which comprises the following steps:

s1, stacking the cut building template plates in order according to the same texture direction;

s2, conveying the building template plates which are orderly stacked into the intelligent moisturizing dryer body to enable the building template plates to be positioned at the upper end of the pressure-bearing bottom plate and enter the intelligent moisturizing dryer body under the guidance of the moisturizing gap adjusting plate;

s3, closing the sealed heat-preservation door, and selecting proper drying temperature and drying time through a control box of the intelligent moisturizing dryer body;

s4, starting a main power supply of the intelligent moisturizing dryer body, driving a pressure plate driver by a control box to enable a steam release sliding plate to drive a steam moisturizing pressure plate to move downwards and press and shape building template plates, and controlling the temperature in the intelligent moisturizing dryer body to continuously rise by the control box;

s5, when the temperature in the intelligent moisturizing dryer body continuously rises to dry the building template plate, the control box controls a motor hot wire to heat a water storage cavity of the steam release sliding plate, so that moisturizing water in the water storage cavity gradually boils to generate steam, the steam enters a steam cavity of the steam moisturizing pressing plate through a steam concentration pipe and is guided by the conical pressurizing spray holes to be pressurized to be sprayed towards the wall surface of the building template plate, and a steam moisturizing layer is formed on the wall surface of the building template plate;

s6, in the continuous drying process of the intelligent moisturizing dryer body, the humidity detection probe monitors the humidity in the intelligent moisturizing dryer body and feeds the humidity back to the control box, and the control box controls the steam circulation guide assembly, so that the steam circulation guide assembly, the steam circulation guide row and the flat arc-shaped strip can recover and circulate the steam in the intelligent moisturizing dryer body;

s7, after the building template board is subjected to moisture preservation and drying for a period of time, the end of the control box is powered off by the electric heating wire, so that the moisture preservation water in the water storage cavity is gradually cooled, the continuous generation of water vapor is prevented, and the intelligent moisture preservation dryer body dries the residual moisture on the wall surface of the building template board;

s8, after the drying is finished, after the building template plate is cooled, the next processing procedure is carried out on the building template plate, when the building template plate is dried, the speed of losing the water on the wall surface of the building template plate is effectively reduced through the formation of a steam moisture-preserving layer, and then the water on the plate core side of the building template plate is continuously pushed to the surface in a high-temperature state, the uniformity of losing the water inside and outside the building template plate is improved, the slope of the gradient of the water content inside and outside the building template plate is reduced, the wood fiber deformation caused by uneven dehydration is effectively avoided, the generation of cracks is effectively avoided, the drying quality of the building template plate is improved, and the precision and the service life of a follow-up building template are further improved.

Further, in step S5, because the temperature constantly rises in the intelligent moisturizing dryer body, the deformation memory metal strip is heated to generate memory deformation, the moisturizing gap adjusting plate is driven to move towards the guide placement L-shaped plate, a gap is generated between the building template plate and the moisturizing gap adjusting plate, and steam can be sprayed into the gap.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) this scheme sprays steam through steam pressure board that moisturizes when building templates panel is dry, make steam form steam moisturizing layer in its outside, effectively moisturize the building templates panel outside, reduce the efficiency that its wall moisture loses, and then when effectively keeping its drying efficiency, still effectively reduce the slope of the inside and outside moisture content gradient of building templates panel, effectively avoid the condition that crackle appears in building templates panel wall, and then improve the drying quality of building templates panel, effectively guarantee follow-up building templates's precision and life, and produce the pressing force to building templates panel through steam pressure board that moisturizes, effectively avoid it to appear deformation when the drying, improve its roughness.

(2) The electric heating heats the water storage cavity, so that the boiling efficiency of the internal moisturizing water is improved, the continuous input of water vapor is effectively kept, and the moisturizing effect is improved.

(3) At the constantly in-process that risees of this internal temperature of intelligence desiccator of moisturizing, deformation memory metal strip is heated and is produced memory deformation, and then drives the clearance adjusting plate of moisturizing and place the L template towards the direction and remove for clearance increase between building templates panel and the clearance adjusting plate of moisturizing, the entering of the steam of being convenient for effectively improves the steam and moisturizes the effect scope to building templates panel, improves its drying quality.

(4) Steam circulation drainage guide can retrieve and circulate the steam that is located building templates panel upside, makes it constantly act on building templates panel, effectively reduces the heat energy loss, improves the energy-concerving and environment-protective nature of intelligence moisturizing desiccator body.

(5) The elastic telescopic hollow air strip has elastic telescopic property, the volume and the form of the elastic telescopic hollow air strip are changed under the action and the stretching of the steam circulation guide assembly, so that the elastic telescopic hollow air strip can generate corresponding suction or thrust through the telescopic air holes, steam is effectively absorbed and conveyed, and the steam circulation efficiency is improved.

(6) Repel the strip through the electromagnetism and produce magnetism, produce thrust to corresponding reverse strong magnetism ejector pad, and then drive the flexible hollow gas strip of elasticity and produce corresponding flexible action, and then improve the suitability of the flexible hollow gas strip of elasticity, effectively realize the function conversion to the flexible hollow gas strip of elasticity, and through suction or the thrust of the flexible hollow gas strip of elasticity production, make steam flow in its inside, and then turn to the fin through the air current and drive and turn to the dabber rotation, and then change the effect direction that the strip was repelled to the electromagnetism, change the deformation direction of the flexible hollow gas strip of elasticity, when effectively driving steam and carrying out autonomous cycle, the input of kinetic energy is effectively reduced in addition, and limited resources are saved, reduce the cost of manufacture of intelligence moisturizing desiccator body, improve the dry feature of environmental protection of building templates.

(7) The magnetism isolating support rod effectively separates the magnetic force of the strong magnetic push block, effectively avoids the magnetism of the elastic telescopic hollow air strip in the long-time use process, enables the elastic telescopic hollow air strip to be adsorbed by magnetic force generated in the deformation process, reduces the elastic potential energy condition of the elastic potential energy, increases the action area of the strong magnetic push block through the arc-shaped fin, further increases the deformation range of the elastic telescopic hollow air strip, and improves the efficiency of steam recovery circulation.

(8) Detect this internal humidity of intelligence desiccator of moisturizing through humidity test probe, effectively improve the precision of steam effect of moisturizing, and then improve the intelligent degree of intelligence desiccator body of moisturizing, improve the drying quality of building templates panel.

(9) Through the formation of steam moisturizing layer, effectively reduce the speed of its wall moisture loss, and then make the moisture of building templates panel core side constantly pass to the surface under high temperature state, improve the degree of consistency that the inside and outside moisture of building templates panel loses, reduce the slope of the inside and outside moisture content gradient of building templates panel, effective its wood fiber deformation because the dehydration inequality causes when dry, effectively avoid the production of crackle, the drying quality of building templates panel has been improved, and then improve follow-up building templates's precision and life.

Drawings

FIG. 1 is a schematic view of an open main body of the intelligent moisture retention dryer of the present invention;

FIG. 2 is a schematic view of a pressure-bearing bottom plate and steam circulation guide row fitting axis structure of the present invention;

FIG. 3 is a schematic view of the steam cycle guidance row axis structure of the present invention;

FIG. 4 is a schematic sectional view of the steam cycle guiding and exhausting structure of the present invention;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a schematic illustration of an explosive structure according to the present invention;

fig. 7 is a schematic structural view of a steam moisturizing state in the intelligent moisturizing dryer body according to the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 7B according to the present invention;

FIG. 9 is an enlarged view of a portion of the structure of FIG. 7 at C;

FIG. 10 is a schematic view of the steam circulation state structure in the intelligent moisture retention dryer body according to the present invention;

fig. 11 is a partial enlarged structural view of fig. 10 at E according to the present invention.

The reference numbers in the figures illustrate:

1 intelligent moisture-keeping dryer body, 2 humidity detection probe, 3 pressure plate driver, 4 steam moisture-keeping pressure plate, 401 steam release slide plate, 402 steam concentration pipe, 403 conical pressurization spray hole, 5 pressure-bearing bottom plate, 501 guide placement L-shaped plate, 502 moisture-keeping gap adjusting plate, 503 deformation memory metal strip, 6 steam circulation guide component, 601 strong magnetic push block, 602 steering mandrel, 603 electromagnetic repulsion strip, 604 air flow steering fin, 7 steam circulation guide row, 701 take-over guide plate, 702 steam recovery pipe, 703 steam circulation pipe, 8 leveling arc strip, 801 elastic telescopic hollow air strip, 802 telescopic air hole, 803 stacking mesh film.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

please refer to fig. 1-10, an intelligent moisture-keeping dryer for building templates, including intelligent moisture-keeping dryer body 1, fixedly connected with pressure-bearing bottom plate 5 in the intelligent moisture-keeping dryer body 1, inner wall fixed mounting has steam circulation guide row 7 that is located pressure-bearing bottom plate 5 downside under the intelligent moisture-keeping dryer body 1, L template 501 is placed to the equal fixedly connected with direction in both ends about pressure-bearing bottom plate 5, inner wall fixed mounting has clamp plate driver 3 on the intelligent moisture-keeping dryer body 1, clamp plate driver 3 is prior art, technical personnel in the art can select suitable type clamp plate driver 3 according to actual need, for example: electric putter, hydraulic push rod etc, 3 lower extremes of clamp plate driver are connected with steam release slide 401, please refer to and draw together fig. 1, fig. 2 and fig. 9, the water storage chamber has been seted up in steam release slide 401, and the water storage chamber is connected with the water supply structure of intelligence desiccator body 1 of moisturizing through the inlet tube, be provided with electric heating wire in the steam release slide 401, steam is concentrated pipe 402 upper end and is located water storage chamber upside, and put through mutually with the water storage chamber, electric heating heats the water storage chamber, improve the efficiency of its inside water boiling of moisturizing, effectively keep lasting input of steam, the effect of moisturizing is improved. The lower end of the steam release sliding plate 401 is fixedly connected with a steam moisturizing pressing plate 4 matched with the pressure-bearing bottom plate 5; referring to fig. 9, a steam chamber is formed in the steam moisturizing pressure plate 4, the upper end of the steam moisturizing pressure plate 4 is fixedly connected with a steam concentrating pipe 402 communicated with steam, the upper end of the steam concentrating pipe 402 is communicated with a steam release sliding plate 401, the lower end and the peripheral side of the steam moisturizing pressure plate 4 are both provided with a plurality of conical pressurizing spray holes 403 communicated with the steam chamber, steam is sprayed through the steam moisturizing pressure plate 4 when the building template plate is dried, so that steam forms a steam moisturizing layer on the outer side of the steam, the outer side of the building template plate is effectively moisturized, the loss efficiency of the water on the wall surface is reduced, the drying efficiency is effectively maintained, the gradient slope of the water content inside and outside the building template plate is effectively reduced, the condition that cracks appear on the wall surface of the building template plate is effectively avoided, the drying quality of the building template plate is improved, and the precision and the service life of the subsequent building template are effectively ensured, and the steam moisturizing pressing plate 4 generates pressing force on the building template plate, so that the deformation of the building template plate during drying is effectively avoided, and the flatness of the building template plate is improved.

Referring to fig. 6, a plurality of shape memory metal strips 503 are fixedly connected to the inner wall of the guiding placement L-shaped plate 501, the other end of each shape memory metal strip 503 is fixedly connected to a moisturizing gap adjusting plate 502 which is in sliding fit with the guiding placement L-shaped plate 501, and in the process that the temperature in the intelligent moisturizing dryer body 1 continuously rises, the shape memory metal strips 503 are heated to generate memory deformation, so that the moisturizing gap adjusting plate 502 is driven to move towards the guiding placement L-shaped plate 501, the gap between the building template plate and the moisturizing gap adjusting plate 502 is increased, steam can enter conveniently, the range of action of steam moisturizing on the building template plate is effectively increased, and the drying quality of the building template plate is improved.

Referring to fig. 2, 3, 7 and 10, the left and right ends of the steam circulation guide row 7 are fixedly connected with the connection pipe guide plate 701, the other end of the connection pipe guide plate 701 is fixedly connected with a plurality of steam recovery pipes 702 communicated with the steam circulation guide row 7, the upper ends of the steam recovery pipes 702 penetrate through the inner wall of the intelligent moisturizing dryer body 1 and are matched with the steam moisturizing pressure plate 4, the upper ends of the steam circulation guide row 7 are fixedly connected with a plurality of steam circulation pipes 703 communicated with the steam circulation guide row 7, the upper ends of the steam circulation pipes 703 penetrate through the pressure-bearing bottom plate 5, and the steam circulation guide row 7 can recover and circulate steam on the upper side of the building template plate, so that the steam continuously acts on the building template plate, thereby effectively reducing heat energy loss and improving the energy-saving and environmental-protection properties of the intelligent moisturizing dryer body 1.

Referring to fig. 4 and 5, a flat arc-shaped strip 8 is fixedly connected to the lower inner wall of the steam circulation guide row 7, an elastic telescopic hollow air strip 801 is fixedly connected to the upper end of the flat arc-shaped strip 8, a plurality of telescopic air holes 802 are uniformly distributed at both left and right ends and at the upper end of the elastic telescopic hollow air strip 801, stacked mesh membranes 803 are fixedly connected to both left and right ends and at the upper end of the elastic telescopic hollow air strip 801, when the stacked mesh membranes 803 are in a contracted state, inner meshes of the stacked mesh membranes are stacked to block the telescopic air holes 802, so that the elastic telescopic hollow air strip 801 is sealed and is directionally communicated with the elastic telescopic hollow air strip 801 in a subsequent deformation process of the elastic telescopic hollow air strip 801, the elastic telescopic hollow air strip 801 has elastic telescopic property, under the action and stretching of the steam circulation guide assembly 6, the volume and shape of the elastic telescopic hollow air strip 801 are changed, so that the elastic telescopic hollow air strip 801 can generate corresponding suction force or thrust force through, effectively absorb and transport steam, improve steam cycle efficiency. Referring to fig. 5, 8 and 11, a steam circulation guiding assembly 6 is connected inside an elastic telescopic hollow air bar 801, the steam circulation guiding assembly 6 includes a strong magnetic pushing block 601, the left and right inner walls and the upper inner wall of the elastic telescopic hollow air bar 801 are both connected with the strong magnetic pushing block 601, a support rod is fixedly connected between the front and rear inner walls of the elastic telescopic hollow air bar 801, the outer end of the support rod is rotatably connected with a steering spindle 602, the steering spindle 602 and the support rod can be connected in a smooth surface contact rotation manner or in a smooth convex surface contact rotation manner, a person skilled in the art can select a suitable connection manner according to actual needs, which is not described herein, the upper and lower ends of the steering spindle 602 are both fixedly connected with an electromagnetic repulsion bar 603, the left and right ends of the steering spindle 602 are both fixedly connected with a plurality of air flow turning fins 604, magnetism is generated by the electromagnetic repulsion bar 603, the strong magnetic push block 601 which is opposite correspondingly generates thrust, and then the elastic telescopic hollow air bar 801 is driven to generate corresponding telescopic action, so that the applicability of the elastic telescopic hollow air bar 801 is improved, the function conversion of the elastic telescopic hollow air bar 801 is effectively realized, and the steam flows in the elastic telescopic hollow air bar 801 through the suction force or the thrust generated by the elastic telescopic hollow air bar 801, so that the steering mandrel 602 is driven to rotate through the air flow steering fin 604, the action direction of the electromagnetic repulsion bar 603 is changed, the deformation direction of the elastic telescopic hollow air bar 801 is changed, when the steam is effectively driven to perform autonomous circulation, the input of kinetic energy is effectively reduced, limited resources are saved, the preparation cost of the intelligent moisturizing dryer body 1 is reduced, and the environmental protection property of drying the building template plates is improved. Please refer to fig. 5, one end of the strong magnetic push block 601 far away from the steering spindle 602 is fixedly connected with a magnetic isolation supporting rod, one end of the magnetic isolation supporting rod far away from the steering spindle 602 is fixedly connected with an arc fin, the arc fin is fixedly connected with the elastic telescopic hollow gas strip 801, the magnetic isolation supporting rod effectively isolates the magnetic force of the strong magnetic push block 601, effectively avoiding the magnetic attraction of the elastic telescopic hollow gas strip 801 in the long-time use process, making the elastic telescopic hollow gas strip generate magnetic adsorption in the deformation process, reducing the elastic potential energy condition, and increasing the acting area of the strong magnetic push block 601 through the arc fin, further increasing the deformation range of the elastic telescopic hollow gas strip 801, and improving the efficiency of steam recovery circulation.

Please refer to fig. 1, fig. 7 and fig. 10, the electromagnetism is repelled strip 603 and is connected with the control box electric connection of the intelligent moisturizing dryer body 1 through the wire, the front end of the intelligent moisturizing dryer body 1 is hinged with the sealing heat preservation door, the sealing heat preservation door is close to one end of the intelligent moisturizing dryer body 1 and is fixedly provided with the humidity detection probe 2 which is matched with the electromagnetism to be repelled strip 603, the humidity detection probe 2 is connected with the control box electric connection of the intelligent moisturizing dryer body 1 through the wire, the humidity in the intelligent moisturizing dryer body 1 is detected through the humidity detection probe 2, the accuracy of the steam moisturizing effect is effectively improved, further the intelligent degree of the intelligent moisturizing dryer body 1 is improved, and the drying quality of the building template plates is improved.

Referring to fig. 1-10, before the intelligent moisturizing dryer body 1 dries the building template plate, a worker needs to debug the drying temperature, the drying time, the moisturizing temperature and the moisturizing time of the building template plate through the control box and the humidity detection probe 2 in advance, then selects a proper drying data range, and performs batch drying and drying treatment on the building template plate; when the building template plates are normally dried, the building template plates are continuously dried along with the continuous rise of the temperature in the intelligent moisturizing dryer body 1, the deformation memory metal strip 503 is heated to be contracted and deformed to drive the moisturizing gap adjusting plate 502 to move towards the position where the L-shaped plate 501 is placed in a guiding manner, the gap between the moisturizing gap adjusting plate 502 and the building template plates is increased, then the control box is electrified to the electric heating wire, moisturizing water in the water storage cavity of the steam release sliding plate 401 is boiled to generate steam, the steam is guided into the steam cavity of the steam moisturizing pressing plate 4 through the steam concentrating pipe 402, the steam is pressurized and blown out through the conical pressurizing spraying holes 403 along with the continuous increase of the steam in the steam cavity (see figure 9), so that the steam forms a steam moisturizing layer on the wall surface of the building template plates, and further, when the building template plates are dried, the water content of the wall surface of the building template plate is effectively kept, the gradient slope of the water content inside and outside the building template plate is reduced, and the penetrating power of the building template plate is improved by continuous steam injection, so that the drying efficiency is improved, and the drying time is shortened;

in the process of continuous drying, steam can continuously rise and is accumulated on the upper side inside the intelligent moisturizing dryer body 1, the control box energizes the electromagnetic repellent strips 603, so that the electromagnetic repellent strips 603 firstly generate repellent magnetic force on the strong magnetic push blocks 601 positioned on the upper side (see fig. 8), the strong magnetic push blocks 601 drive the elastic telescopic hollow air strips 801 to generate vertical deformation, the inner cavities of the elastic telescopic hollow air strips 801 are enlarged, the stacked mesh membranes 803 on the left side and the right side of the elastic telescopic hollow air strips 801 are expanded and opened to generate gaps, the telescopic air holes 802 on the left side and the right side of the elastic telescopic hollow air strips 801 are expanded under the deformation of the elastic telescopic hollow air strips 801 and are communicated with the outside through the stacked mesh membranes 803, due to the enlargement of the inner cavities of the elastic telescopic hollow air strips 801, suction force is generated through the telescopic air holes 802 (see fig. 8), and steam positioned on the upper side inside the intelligent moisturizing dryer body 1 is recovered through the steam recovery pipe 702 (see fig. 7) ) (ii) a

When steam enters the elastic telescopic hollow air bar 801, the flowing force of the steam pushes the air flow turning fin 604, so that the air flow turning fin 604 drives the turning mandrel 602 to rotate, and further changes the acting direction of the electromagnetic repelling bar 603, when the electromagnetic repelling bar 603 rotates to a horizontal state, the strong magnetic push block 601 positioned at the upper side loses the pushing of the repelling magnetic force, moves downwards under the action of gravity and the elastic restoring force of the elastic telescopic hollow air bar 801, so that the stacked mesh membranes 803 at the same side are stacked, the telescopic air holes 802 are sealed, the electromagnetic repelling bar 603 generates the repelling of the magnetic force to the strong magnetic push blocks 601 at the left and right sides (please refer to fig. 11), so that the strong magnetic push blocks 601 at the left and right sides drive the elastic telescopic hollow air bar 801 to generate deformation in the horizontal direction, the stacked mesh membranes 803 at the upper side expand and open, so that the telescopic air holes 802 at the upper side are communicated with the outside, and under the action of the downward movement of the strong magnetic push block 601 at the upper side and the horizontal deformation of the elastic telescopic hollow air bar 801, the steam in the intelligent moisture-preserving dryer body 1 is pushed out upwards, and then enters the intelligent moisture-preserving dryer body 1 through the steam circulating pipe 703 (see fig. 10), so that the bottom moisture-preserving effect is performed on the building template plate, the moisture-preserving range of the steam is further expanded, the permeability of the steam is improved, the drying quality of the building template plate is further improved, then the steam flowing upwards pushes the air flow turning fin 604, the air flow turning fin continuously drives the turning mandrel 602 to rotate, the acting direction of the electromagnetic repelling strip 603 is changed, the steps are repeated when the electromagnetic repelling strip 603 rotates in a vertical state, and in the electrifying process of the electromagnetic repelling strip 603, the elastic telescopic hollow air strip 801 continuously deforms along with the rotation of the turning mandrel 602, so that the recycling circulation of the steam in the drying process of the building template plate is effectively realized, and the energy saving performance and the environmental protection performance of the drying process are effectively improved.

Example 2:

referring to fig. 1, wherein the same or corresponding components as those in embodiment 1 are designated by the same reference numerals as those in embodiment 1, only the points different from embodiment 1 will be described below for the sake of convenience. This example 2 differs from example 1 in that: a moisture-preserving and drying method for building templates comprises the following steps:

s1, stacking the cut building template plates in order according to the same texture direction;

s2, conveying the building template plates which are orderly stacked into the intelligent moisturizing dryer body 1 to enable the building template plates to be positioned at the upper end of the pressure-bearing bottom plate 5 and enter the intelligent moisturizing dryer body 1 under the guidance of the moisturizing gap adjusting plate 502;

s3, closing the sealed heat-preservation door, and selecting proper drying temperature and drying time through a control box of the intelligent moisturizing dryer body 1;

s4, starting a main power supply of the intelligent moisturizing dryer body 1, driving a pressure plate driver 3 by a control box to enable a steam release sliding plate 401 to drive a steam moisturizing pressure plate 4 to move downwards, pressing and shaping building template plates, and controlling the temperature in the intelligent moisturizing dryer body 1 to continuously rise by the control box;

s5, when the temperature in the intelligent moisturizing dryer body 1 continuously rises to dry the building template plate, the temperature in the intelligent moisturizing dryer body 1 continuously rises to enable the deformation memory metal strip 503 to be heated to generate memory deformation, the moisturizing gap adjusting plate 502 is driven to move towards the position where the L-shaped plate 501 is placed in a guiding mode, a gap is formed between the building template plate and the moisturizing gap adjusting plate 502, steam can be sprayed into the gap, the control box controls a motor heater to heat a water storage cavity of the steam release sliding plate 401, moisturizing water in the water storage cavity is gradually boiled to generate steam, the steam enters the steam cavity of the steam moisturizing pressing plate 4 through the steam concentration pipe 402 and is guided by the conical pressurizing spray holes to be pressurized to be sprayed towards the wall surface of the building template plate, and a steam moisturizing layer is formed on the wall surface of the building template plate;

s6, in the continuous drying process of the intelligent moisturizing dryer body 1, the humidity in the intelligent moisturizing dryer body 1 is monitored by the humidity detection probe 2 and fed back to the control box, and the control box controls the steam circulation guide assembly 6, so that the steam circulation guide assembly 6, the steam circulation guide row 7 and the flat arc-shaped strip 8 recover and circulate steam in the intelligent moisturizing dryer body 1;

s7, after the building template board is subjected to moisture preservation and drying for a period of time, the end of the control box is powered off by the electric heating wire, so that the moisture preservation water in the water storage cavity is gradually cooled, the continuous generation of water vapor is prevented, and the intelligent moisture preservation dryer body 1 dries the residual moisture on the wall surface of the building template board;

s8, after the drying is finished, after the building template plate is cooled, the next processing procedure is carried out on the building template plate, when the building template plate is dried, the speed of losing the water on the wall surface of the building template plate is effectively reduced through the formation of a steam moisture-preserving layer, and then the water on the plate core side of the building template plate is continuously pushed to the surface in a high-temperature state, the uniformity of losing the water inside and outside the building template plate is improved, the slope of the gradient of the water content inside and outside the building template plate is reduced, the wood fiber deformation caused by uneven dehydration is effectively avoided, the generation of cracks is effectively avoided, the drying quality of the building template plate is improved, and the precision and the service life of a follow-up building template are further improved.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (7)

1. The utility model provides a desiccator is moisturized with intelligence to building templates, includes desiccator body (1) is moisturized to intelligence, its characterized in that: the intelligent moisturizing dryer comprises an intelligent moisturizing dryer body (1), and is characterized in that a pressure-bearing bottom plate (5) is fixedly connected in the intelligent moisturizing dryer body (1), a steam circulation guide row (7) positioned on the lower side of the pressure-bearing bottom plate (5) is fixedly installed on the lower inner wall of the intelligent moisturizing dryer body (1), guide placement L-shaped plates (501) are fixedly connected to the left end and the right end of the pressure-bearing bottom plate (5), a pressing plate driver (3) is fixedly installed on the upper inner wall of the intelligent moisturizing dryer body (1), a steam release sliding plate (401) is connected to the lower end of the pressing plate driver (3), and a steam moisturizing pressing plate (4) matched with the pressure-bearing bottom plate (5) is fixedly connected to the lower end of the steam release sliding plate (401);

a steam cavity is formed in the steam moisturizing pressing plate (4), the upper end of the steam moisturizing pressing plate (4) is fixedly connected with a steam concentration pipe (402) communicated with steam, the upper end of the steam concentration pipe (402) is communicated with a steam release sliding plate (401), and the lower end and the peripheral side of the steam moisturizing pressing plate (4) are provided with a plurality of conical pressurizing spray holes (403) communicated with the steam cavity;

the inner wall of the guiding placement L-shaped plate (501) is fixedly connected with a plurality of deformation memory metal strips (503), and the other end of each deformation memory metal strip (503) is fixedly connected with a moisturizing gap adjusting plate (502) in sliding fit with the guiding placement L-shaped plate (501);

the lower inner wall of the steam circulation guide row (7) is fixedly connected with a flat arc-shaped strip (8), the upper end of the flat arc-shaped strip (8) is fixedly connected with an elastic telescopic hollow air strip (801), the left end, the right end and the upper end of the elastic telescopic hollow air strip (801) are respectively provided with a plurality of uniformly distributed telescopic air holes (802), and the left end, the right end and the upper end of the elastic telescopic hollow air strip (801) are respectively fixedly connected with a stacked mesh membrane (803);

elastic expansion air core strip (801) internal connection has steam circulation direction subassembly (6), steam circulation direction subassembly (6) are including strong magnetism ejector pad (601), two inner walls and last inner wall all are connected with strong magnetism ejector pad (601) about elastic expansion air core strip (801), fixedly connected with bracing piece between two inner walls around elastic expansion air core strip (801), the bracing piece outer end rotates and is connected with and turns to dabber (602), turn to dabber (602) about the equal fixedly connected with electromagnetism in both ends repel strip (603), turn to dabber (602) about a plurality of air current of the equal fixedly connected with in both ends turn to fin (604).

2. The intelligent moisture-keeping dryer for the building templates as claimed in claim 1, wherein: steam release slide (401) interior division of have a water storage chamber, and the water storage chamber is connected with the water supply structure of intelligence moisturizing desiccator body (1) through the inlet tube, be provided with electric heating wire in steam release slide (401), steam is concentrated pipe (402) upper end and is located water storage chamber upside to put through mutually with the water storage chamber.

3. The intelligent moisture-keeping dryer for the building templates as claimed in claim 1, wherein: both ends all fixedly connected with take over guide plate (701) about steam cycle guide row (7), take over guide plate (701) other end fixedly connected with a plurality of steam recovery pipes (702) of putting through mutually with steam cycle guide row (7), steam recovery pipe (702) upper end is run through intelligent desiccator body (1) inner wall to cooperate with steam moisturizing clamp plate (4), steam cycle guide row (7) upper end fixedly connected with a plurality of steam circulation pipes (703) of putting through mutually with steam cycle guide row (7), and steam circulation pipe (703) upper end runs through pressure-bearing bottom plate (5).

4. The intelligent moisture-keeping dryer for the building templates as claimed in claim 1, wherein: the strong magnetic push block (601) is far away from one end of the steering mandrel (602) and is fixedly connected with a magnetic isolation supporting rod, the magnetic isolation supporting rod is far away from one end of the steering mandrel (602) and is fixedly connected with an arc-shaped fin, and the arc-shaped fin is fixedly connected with the elastic telescopic hollow air strip (801).

5. The intelligent moisture-keeping dryer for the building templates as claimed in claim 1, wherein: the electromagnetism is repelled strip (603) and is passed through the control box electric connection of wire and intelligent desiccator body (1) of moisturizing, intelligence desiccator body (1) front end is articulated to have sealed heat preservation door, sealed heat preservation door is close to intelligence desiccator body (1) one end fixed mounting and is repelled strip (603) matched with humidity test probe (2) with the electromagnetism, and humidity test probe (2) are through the control box electric connection of wire and intelligent desiccator body (1) of moisturizing.

6. A moisture-preserving and drying method for building templates is characterized by comprising the following steps: the method comprises the following steps:

s1, stacking the cut building template plates in order according to the same texture direction;

s2, conveying the stacked building template plates to the intelligent moisturizing dryer body (1) to enable the building template plates to be located at the upper end of the pressure-bearing bottom plate (5) and enter the intelligent moisturizing dryer body (1) under the guidance of the moisturizing gap adjusting plate (502);

s3, closing the sealed heat-preservation door, and selecting proper drying temperature and drying time through a control box of the intelligent moisturizing dryer body (1);

s4, starting a main power supply of the intelligent moisturizing dryer body (1), driving a pressure plate driver (3) by a control box to enable a steam release sliding plate (401) to drive a steam moisturizing pressure plate (4) to move downwards and press and shape building template plates, and controlling the temperature in the intelligent moisturizing dryer body (1) to continuously rise by the control box;

s5, when the temperature in the intelligent moisture-preserving dryer body (1) continuously rises to dry the building template plates, the control box controls the motor hot wire to heat the water storage cavity of the steam release sliding plate (401), so that moisture-preserving water in the water storage cavity gradually boils to generate steam, the steam enters the steam cavity of the steam moisture-preserving pressing plate (4) through the steam concentration pipe (402), and is guided by the conical pressurizing spray holes (403) to pressurize and spray towards the wall surfaces of the building template plates, so that a steam moisture-preserving layer is formed on the wall surfaces of the building template plates;

s6, in the continuous drying process of the intelligent moisturizing dryer body (1), the humidity in the intelligent moisturizing dryer body (1) is monitored by the humidity detection probe (2) and fed back to the control box, the control box controls the steam circulation guide assembly (6), and the steam circulation guide assembly (6), the steam circulation guide row (7) and the flat arc-shaped strip (8) recover and circulate steam in the intelligent moisturizing dryer body (1);

s7, after the building template board is subjected to moisture preservation and drying for a period of time, the end of the control box is powered off by the electric heating wire, so that moisture preservation water in the water storage cavity is gradually cooled, continuous generation of water vapor is prevented, and the intelligent moisture preservation dryer body (1) dries residual moisture on the wall surface of the building template board;

and S8, after the drying is finished, carrying out the next processing procedure on the building template plate after the building template plate is cooled.

7. The method of claim 6, wherein the moisture retention and drying is performed by: in the step S5, as the temperature in the intelligent moisturizing dryer body (1) is continuously increased, the deformation memory metal strip (503) is heated to generate memory deformation, the moisturizing gap adjusting plate (502) is driven to move towards the position where the L-shaped plate (501) is placed in a guiding manner, so that a gap is formed between the building template plate and the moisturizing gap adjusting plate (502), and steam can be sprayed into the gap.

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