RU2018556C1 - Textile article drying machine - Google Patents

Abstract

FIELD: light industry. SUBSTANCE: machine has rotary drum and air heater disposed on rear end part of drum. Air duct adjoining air heater has walls with plates secured to them in staggered arrangement. Chamber disposed in upper part of air duct provides aerodynamic hydraulic communication between air duct and space adjacent to drum. Direction of air flow is controlled by gate mounted in chamber and kinematically connected with control system. Heated air flow inlet zone is disposed above air heater. Changing of air flow from recirculation mode to relief mode is affected by gate, which is mounted in lower part of vertical channel and kinematically connected with control system. EFFECT: increased quality of drying textile article and enhanced reliability in operation of machine. 5 cl, 2 dwg

Description

 The invention relates to machines and equipment for factory laundries and may find application in the decoration industry of light industry enterprises.

 A known machine for drying textiles, containing a horizontal drum mounted for rotation in the housing, a fan, a drive and an air duct installed at the rear wall of the drum and covering the air heater, built into its end face and connected to the near-drum space, including a filter and a temperature controller (prototype) .

 However, this design, using air recirculation, only slightly increases the efficiency of heat consumption.

 The aim of the invention is to reduce the energy consumption of the machine by increasing the efficiency of thermal energy.

This goal is achieved in that the vertical duct channel has a rectangular shape and is formed by its walls and the back of the air heater, on which plates made of heat-resistant material with a width of 0.55-0.7 channel width are fixed in a checkerboard pattern with a pitch of 80-1000 mm, in the upper part of the duct there is a chamber aerodynamically connecting the duct itself and the cavity of the near-drum space, and between the near-drum space and the camera there is a movable shutter installed with the possibility of The opening of the entrance to the chamber, while the zone of the input of heated air is placed above the heater. In this case, the plates in the vertical channel can be installed horizontally or deflected upward by 10-35 ^about to the horizontal, as well as vertically. In addition, a shutter is mounted in the lower part of the vertical channel, switching the air flow from the recirculation mode to the discharge and kinematically connected with the control system.

 In FIG. 1 presents the proposed machine; in FIG. 2 - waters A in FIG. 1.

 The machine comprises a housing 1, in which a horizontal drum 2 is mounted, mounted for rotation, a drive (not shown), a fan 3, built into the duct system 4, a heater 5, mounted at the rear end of the drum 2, a filter 6 and a temperature regulator 7. air duct 4 includes a vertical channel 8 formed by its U-shaped walls and the rear wall of the air heater 5. On the wall of the air heater and the opposite wall of the air duct, plates 9 are made of heat-resistant material and staggered hom 80-100 mm. At a pitch of less than 80 mm, the air flow (at an equal speed of its supply) becomes turbulent, while the flow resistance increases significantly due to the frequent and sharp change in the direction of its movement, which is accompanied by an increase in the power consumption of the fan. With a step of more than 200 mm, air easily passes through the channel, not having time to contact the heated surface of the air heater, which reduces the efficiency of heat energy use.

 The plates 9 have a width of 0.55-0.7 channel widths, which ensures the formation of a zone of mutual overlap with their horizontal arrangement. The specified range is due to the fact that with a plate width of less than 0.55 of the channel width, the air flow passes almost unhindered through the channel without taking heat from the heated surface of the air heater. When the width of the plate is more than 0.7 of the channel width (as with decreasing the step between them), the flow resistance increases and, accordingly, the power consumption of the fan increases.

The plates may also be tilted upwardly at an angle ^of 10-35 to the horizontal or vertically arranged, ie. E. In the direction of flow. This range of angles is due to the fact that the plate arrangement angle less than ^{10 °} to the horizontal substantially repeated technical solution to their horizontal position, with an angle ^of more than 30 possible flow separation that leads to a reduction in air contact time with the heated surface.

 In the upper part of the duct there is a chamber 10, aerodynamically connecting the duct itself and the cavity of the near-drum space through the windows 11 and 12, respectively. The direction of the air flow in the chamber is regulated by a shutter 13, kinematically connected with the control system. In this case, the place 14 of the input of heated air is located above the heater, and the place 15 of the input of fresh air is under the drum. A shutter 16 is mounted in the lower part of the vertical channel, switching the air flow from the recirculation mode to the discharge through the pipe 17 and kinematically connected with the control system.

 The outer walls of the vertical channel 8 are covered with heat-insulating material, and the inner surfaces of the walls with a reflective composition.

 The proposed device operates as follows.

 The drum type dryer is a discrete principle machine whose operation is associated with constantly alternating operations of loading, drying and unloading products.

 After loading the next batch of linen, the hatch 18 closes, the machine starts up and the shutter 13 opens the window 11. At the same time, a certain vacuum is created in the drum with the help of fan 3 and fresh air is sucked in through the window (place 15) and flows around the heated surface of the drum shell 2 and through the window 11 enters the air heater 5. Then hot air, passing the entire air heater, is sucked through the window (place 14) into the inner cavity of the drum, where it interacts with the laundry, moistens, leaves through the front perforation of the drum 2, filter 6 fan 3 is supplied into the outer duct, consisting of 19 horizontal and 8 vertical channels. The position of the shutter 16 determines the direction of air movement. At the beginning of the cycle, when the laundry is wet, the shutter 16 overlaps the vertical channel 8 and is discharged out through the pipe 17. As the air heats up, the shutter 16 is moved to the second extreme position, closing the discharge pipe and opening the channel 8, along which the air flow is directed in the recirculation mode. At the same time, sliding along the plates 9, an air stream flows around the back wall of the air heater 5, removes heat from it, then enters the chamber 10 through the window 12 and then into the air heater 5, from where it passes through the window (place 14) into the cavity of the drum 2. In the chamber 10 mixes fresh and recirculated air. If necessary, remove the exhaust air damper closes the channel 8 and opens the discharge pipe 17.

 Depending on the technological need, the shutter 16 can occupy an intermediate position, which allows reusing part of the air, and dumping the rest out with the help of thermostat 7. After reaching the set temperature, the heating elements of the heater 5 are turned off. Coating the inner surfaces of the outer walls of the duct channel 8 with a light-reflecting composition ensures the efficient use of thermal energy.

 To avoid overheating of the heaters after reaching the maximum temperature, emergency shutdown sensors are provided.

Claims (5)

 1. MACHINE FOR DRYING TEXTILE PRODUCTS, comprising a horizontal drum mounted for rotation in the housing, a fan, a drive and an air duct installed at the rear wall of the drum and covering the air heater, built into its end face and connected to the near-drum space, including a filter and a temperature regulator, characterized the fact that, in order to increase the efficiency of using thermal energy, the vertical channel of the duct has a rectangular shape and is formed by its walls and the back of the air heater, on which in a schmatic order with a pitch of 80 - 100 mm, plates made of heat-resistant material with a width of 0.55 - 0.7 channel width are fixed, and a chamber is mounted in the upper part of the duct, aerodynamically connecting the duct itself and the cavity around the drum, and to adjust the direction of the air flow in it a flap installed kinematically connected to the control system, while the input zone of the heated air flow is located above the air heater.  2. The machine according to claim 1, characterized in that the plates in the vertical channel of the duct are installed horizontally.  3. The machine according to claim 1, characterized in that the plates in the vertical channel of the duct are installed vertically. 4. The machine according to claim 1, characterized in that the plates in the vertical duct channel are deflected upward at an angle of 10 - 35 ^o to the horizontal.  5. The machine according to claim 1, characterized in that in the lower part of the vertical channel is mounted a damper kinematically connected to the control system for switching the air flow from the recirculation mode to the discharge.

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