RU2069827C1 - Set for drying materials - Google Patents

Abstract

FIELD: woodworking industry and construction. SUBSTANCE: set has drying chamber and fan connected with it by means of suction and discharge air lines. Suction air line is additionally connected with chamber by means of additional air duct. Set is provided with refrigerating machine which consists of compressor, condenser, control valve and evaporator connected in series; evaporator and condenser are mounted in air duct in way of air flow. Provided in air duct in section between evaporator and condenser is port fitted with gate valve for supply of outside air. Set is also provided with heat exchanger which is made in form of vertical tube bundle and provided with inlet and outlet headers; it is mounted above evaporator and is connected with it forming circulating loop; evaporator is made in form of vertical tube bundle provided with inlet and outlet headers. Mounted in delivery air duct is electric heater; drying chamber is provided with port fitted with gate valve for discharge of air from it. EFFECT: enhanced efficiency. 3 cl, 1 dwg

Description

 The invention relates to drying equipment and can be used in woodworking, construction and other industries.

 A known installation for drying wood (French application N 2644855, class F 26 B 9/10, 21/04), containing a drying chamber with reversible fans for air circulation inside it, a refrigerating machine, consisting of a compressor connected in series with each other , a condenser, a control valve and an evaporator, as well as a heater and a fan for supplying air to the chamber, the suction and heating channels, while the condenser is mounted inside the chamber, and the compressor and the evaporator are outside, the latter being placed in the suction yuschem channel which communicates with a chamber formed therein through louvre. The chiller in this installation is used either as a heat pump or as an air dryer.

 However, this drying unit has a low energy efficiency, which is due to the placement of the condenser in the drying chamber, which leads to an increase in the condensation temperature in the cycles of the chiller, and therefore the excessive consumption of electricity on the compressor drive.

 In addition, in this drying chamber it is impossible to organize high-temperature drying modes due to a significant increase in pressure in the evaporator and condenser.

 The design of the installation does not provide for operation with the compressor turned off in the event of a sufficiently low outdoor temperature, which also leads to a decrease in energy efficiency.

 An installation for drying materials was selected as a prototype (German application No. 3509549, class F 26 B 3/02), containing a drying chamber with fans for circulating air in it, equipped with a window with a slider for air exhaust, a fan for supplying air to the chamber, connected to the latter by means of the suction and discharge ducts, a refrigeration machine consisting of a compressor, a condenser, a control valve and an evaporator connected in series, the evaporator and condenser being placed in the suction duct Air therefore move, as well as a heater and a damper box for supplying the external air formed in the suction duct in the area between the drying chamber and the evaporator. The chiller in this unit works as a dehydrating heat pump. Depending on the drying program, the moist air stream drained in the dewatering heat pump is supplied with an external air flow in front of the evaporator and a corresponding moist exhaust air stream is taken out from the drying chamber. The heater supplies energy to the drained air stream and / or directly to the drying chamber. However, this installation also has low energy efficiency, which is due to the following: placing a window with a gate for supplying external air in the duct section in front of the evaporator does not allow using its low-temperature potential to lower the condensation temperature, which leads to an increase in energy consumption for the operation of the refrigeration machine. In addition, entering the front of the evaporator, the outside air is mixed with recirculation air, thereby reducing the drying efficiency of the latter and ultimately leading to additional energy costs for the drying process. The decrease in energy efficiency is also due to the fact that the design of this installation does not provide for the possibility of its operation without the cost of electricity to drive the compressor in the natural circulation of the refrigerant in the circuit of the refrigeration machine.

 The problem to which the claimed invention is directed is to create an installation for drying materials, mainly wood, providing high quality drying of materials with minimal energy consumption.

 The technical result of this invention is to increase the energy efficiency of the installation.

 The specified technical result is achieved by the fact that in the installation for drying materials, mainly wood, containing a drying chamber, equipped with a window with a slider for venting air, a fan connected to it by means of suction and discharge ducts, a refrigerating machine, consisting of a compressor connected in series with each other, a condenser, a control valve and an evaporator, as well as a heater and windows with a gate for supplying external air according to the invention, a suction duct is connected In addition to the chamber by means of an air duct, the evaporator and condenser are placed in the latter in series along the air flow, and a window with a gate for supplying external air is made in the said duct in the area between the evaporator and the condenser.

 In addition, to achieve the specified technical result, the drying apparatus for materials is equipped with a heat exchanger mounted above the evaporator outside the drying chamber and connected with it to form a closed circulation loop, while the said evaporator and heat exchanger are made with a vertical arrangement of heat exchange elements.

 An additional connection of the suction duct to the chamber through the duct and placement of the evaporator and condenser in the latter in series along the air creates the possibility of processing not only the entire recirculated air stream, but part of it, as a result of which the required cooling capacity of the chiller, and therefore the power consumption, is reduced, which leads to increase the energy efficiency of the installation. The implementation of the window with a gate for supplying external air in an additional duct in the area between the evaporator and the condenser allows to reduce the condensation temperature of the refrigerant during high-temperature drying of materials by mixing the recirculation stream processed in the evaporator and the external air flow coming through the window with the gate, which also contributes to increase the energy efficiency of the installation. The supply of the installation with a heat exchanger installed above the evaporator outside the drying chamber and connected with it to form a closed circulation loop, as well as the execution of the said evaporator and heat exchanger with a vertical arrangement of heat exchanger elements, allows the refrigerant to naturally circulate in the said circulation loop and allows drying to be performed during cold periods air without the cost of electricity to drive the compressor, which also leads to increased energy Skog plant efficiency. The same result will be obtained if the installation is equipped with a heat exchanger mounted above the condenser outside the drying chamber and connected to it to form a closed circulation loop, and the heat exchanger and condenser mentioned above will be made with a vertical arrangement of heat exchange elements.

 The drawing shows a schematic diagram of an installation for drying materials.

 Installation for drying materials contains a drying chamber 1, a fan 2 connected to it by means of a suction 3 and discharge 4 ducts. The suction duct 3 is additionally connected to the chamber 1 in its end part via the duct 5. The installation is equipped with a cooling chamber, consisting of a compressor 6, a condenser 7, a control valve 8 and an evaporator 9 connected in series, the evaporator 9 and the condenser 7 being installed in the duct 5 sequentially in the air. In the duct 5 in the area between the evaporator 9 and the condenser 7, a window 10 is made with a gate 11 for supplying external air. The installation is also equipped with a heat exchanger 12, which is made in the form of a vertical tube bundle equipped with inlet and outlet manifolds, is installed outside the chamber 1 above the evaporator 9 and connected to the latter to form a closed circulation loop, while the evaporator is also made in the form of a vertical tube bundle equipped with an inlet and output collectors.

 An electric heater 13 is installed in the discharge duct 4, and a window 14 is made in the drying chamber 1 with a gate 15 for venting air from it.

 Installation works as follows.

 The air circulation in the drying chamber 1 is carried out by means of a fan 2, which takes air through the suction duct 3 and delivers it through the discharge duct 4. Part of the air from the drying chamber, passing through the duct 5, is cooled and dried in the evaporator 9, and then heated in the condenser 7 of the refrigeration cars. Sequential treatment of part of the air in the duct 5 increases the energy efficiency of the entire installation due to the implementation of this process at a lower condensing pressure. The treated part of the air from the duct 5 is mixed with the main stream of circulating air in front of the fan 2. The use of one fan for circulation and air treatment also helps to increase the energy efficiency of the installation as a whole. The cycle of the chiller operating in the heat pump mode is carried out in series by a compressor 6, a condenser 7, a thermostatic valve 8 and an evaporator 9. If necessary, the mixture of circulating and treated air is heated to the required temperature by an electric heater 13. When carrying out high-temperature drying modes in the duct 5 in front of the condenser along the air through the window 10 with the gate 11, the outside air is sucked in to reduce the condensation temperature in the cycle olodilnoy car, which also increases the energy efficiency of the entire system and simultaneously a part of the air removed from the chamber through the window 14 with damper 15.

 In the cold period of time, the compressor 6 of the refrigeration machine is turned off, and the air drying process is carried out in the evaporator 9 using a closed circulation circuit formed by the evaporator 9 and the heat exchanger 12 located above the evaporator outside the chamber. The process of heat transfer from the evaporator 9 to the heat exchanger 12 is carried out due to the natural convection of a two-phase working fluid. In this case, the heat exchanger 12 operates as a capacitor of a two-phase thermosiphon. In this mode of operation of the installation, the low-temperature potential of outdoor air is used. Saves energy on the compressor drive. In general, this determines the efficiency of the wood drying plant and increases its energy efficiency.

Claims (3)

 1. Installation for drying materials, mainly wood, containing a drying chamber, equipped with a window with a slider for venting air, a fan connected to the chamber by means of a discharge and suction ducts, the first of which is equipped with a heater, and the last with a slider window for supplying external air, a refrigerator a chamber consisting of a compressor, a condenser, a control valve and an evaporator connected in series, the evaporator and condenser being installed in the suction duct after Consistently in the direction of air movement, characterized in that the installation is equipped with an additional suction duct connected to the fan, and a window with a gate for supplying external air is installed in the section of the suction duct between the evaporator and the condenser.  2. Installation according to claim 1, characterized in that it is equipped with a heat exchanger installed above the evaporator outside the drying chamber and connected to it to form a closed circulation loop, while the heat exchanger and evaporator are made with a vertical arrangement of heat exchange elements.  3. The installation according to claim 1, characterized in that it is equipped with a heat exchanger installed above the condenser outside the drying chamber and connected to it to form a closed circulation loop, while the heat exchanger and condenser are made with a vertical arrangement of heat exchange elements.