SU1328647A1 - Device for drying articles with paint-and-varnish coating - Google Patents

Abstract

This invention relates to thermoradiation dryers. It allows to increase the quality of drying and cost effectiveness. The inlet and outlet nozzles of the coolant are made in the form of 3 two pairs of butterfly valves 10 and 11, which form slotted nozzles and are equipped with actuators 12. Each section 7 of infrared emitters (AI) 6 is connected to a power source by means of an independent electric circuit. Chamber 1 contains -60, FIRMWARE sensors (D) 9 en-usable to us and 9 t-ry and control units, through which the latter is connected to the drive 12 and electrical circuits of section 7 of the II 6. Section 7 The AI 6 is installed in the pass-through heat-insulated chamber 1 in accordance with the configuration of the product 3. Then, the position D 9 is manually adjusted and fixed in the area of the sockei to determine the point with the maximum temperature. For this, the D 9 is equipped with a movement and latch mechanism 13. After that, the product 3 is subjected to heating of the AI 6 in sections 7. In each section, the power supply is supplied autonomously and can be supplied or turned off using the power control unit of the AI 6 depending on the size of the product. Overheating of the latter is prevented by blowing it from top to bottom with a stream of air. With increasing t-ry in the area below the allowable, D 9 sends an electrical signal to the drive control unit 12. The latter change the position of the pairs of flaps 10 and 11, thereby changing the cross section of the air flow. 1 hp ff, 2 ill. 1A (L nornofi So dgf O

Description

The invention relates to thermoradiation dryers and can be used for drying products with paint and varnish coatings in any branch of the national household, for example, in instrument making.

The purpose of the invention is to improve the quality of drying and efficiency.

FIG. 1 shows a plant for drying paint-coated articles, a slit; in fig. 2 ma install.

The plant for drying products with a paint coating contains a heat-insulated chamber 1 with

The signal in control unit 16 drives 12, which, in accordance with this signal, change the position of the pairs of air dampers 10 and 11, i.e. the air flow cross section.

In order to determine the maximum temperature point in the drying zone, the temperature sensor 9 is equipped with a movement mechanism 13 along the surface of the product 3. In combination with the angular movement of the sensitive electrical circuit of the temperature control sensor, it can be carried out at any point of the area of the substance and monitor it. changes.

The proposed installation allows a transport system (conveyor) 2 to expand the product range, suitable movement of products 3, mounted in the base of drying products in one installation, springs 4, installed on both sides of panel products 5 with infrared radiators 6 installed in separate sections 7 with reflectors 8, temperature sensor 9 in the drying zone, a pair of rotary 20 shadow effects (shielding protruding air dampers 10 and 1 with driving or curved elements of the device 12, forming patr slabs of its surface from radiation; increase and output of the coolant, position quality and reduce scrap due to the creation of a single axis with products 3 and forming optimal conditions for drying by slit nozzles, movement mechanism 13 and preliminary manual installation - fixing the temperature sensor in the zone 25 f of the flaps and automatic drying flaps. Each section 7 of the infra-red cross section adjustments of the radiators is connected to the power supply source during the process flow (not azan) by means of an autonomous electrolyte, as well as the installation of emitters in a dry-air circuit 14. The installation also contains, with the shape of the product, both in the control unit 15, the actuators 12, their growth from its surface, and 10 and 11, a power control unit 16 for directing the flow of infrared radiation including products with temperature-sensitive elements or coatings, as well as products of complex shape that have not previously been dried by a thermoradiation method due to

sections 7 emitters 6, the system 17 forcing the coolant.

Installation for drying products with a paint coating works as follows.

neither The installation allows you to save energy by turning off those emitters that are not used when drying small products, and more quickly getting to the working mode due to auto ijui / vvj / j, tJ ti (j jVLJV 4y-i.t4i L / v-YlvrilTj (J4, i / I, „lUtlV-

The sections 7 with radiators 6 of the adjusting quantity control are conducted in the thermally insulated air through the installation from Temperature 1 in accordance with the configuration of the product 3. Then the position of the temperature sensor 9 in the drying zone is manually adjusted and fixed to determine the point with a maximum temperature, for which the temperature sensor is equipped with a mechanism 13 for moving and fixing. After that, the product 3 in the suspension 4, mounted on the conveyor 2, enters the drying chamber 1,

Perature in the drying zone.

Claims (2)

1. A plant for drying paint-coated products containing a camera with a conveyor for moving products and placed on both sides of the last partitioned panels of infrared radiation is subjected to thermo-radiation heaters installed with the ability of radiators 6 installed in several sections 7, and Each section is electrically powered autonomously by means of electrical circuits and can be supplied or disconnected by changing their position relative to the product and connected to power supply, and a coolant supply system along products with its input and output nozzles, characterized in that, in order to increase the power of the power control unit 16 of the radiation quality and drying efficiency, branch pipes 6 depending on the size of the product. During the drying process, the forced supply system 17 of the coolant prevents the coolant from entering and withdrawing in the form of two pairs of butterfly valves forming slit nozzles along the same axis with the products and supplying water to the overheating of the products 3 by blowing them over. The temperature of the switches is connected to the power supply. the drying zone is constantly monitored by a sensor through an autonomous electrical circuit, com 9 and when it is raised above, the installation itself additionally contains From the sensor limit 9, an electric temperature sensor is placed in the chamber. to expand the range of products suitable for drying products in a single installation, the shadow effect (shielding protruding or curved elements of the product of a part of its surface from radiation; to increase quality and reduce scrap by creating optimal drying conditions by pre-setting the position shutters and automatic adjustment of the cross section of the air flow during the technological process, as well as the installation of emitters in accordance with the shape of the product as if they are surface and in the direction of infrared radiation fluxes, including products with temperature-sensitive elements or coatings, as well as products of complex shape, which were not previously dried by the thermoradiation method due to to expand the range of products suitable for drying products in a single installation, the shadow effect (shielding protruding or curved elements of the product of a part of its surface from radiation; to increase quality and reduce scrap by creating optimal drying conditions by pre-setting the position shutters and automatic adjustment of the cross section of the air flow during the technological process, as well as the installation of emitters in accordance with the shape of the product as if they are surface and in the direction of infrared radiation flux. The installation allows energy savings due to the shutdown of those emitters that are not used for drying small-sized products, and more rapid exit to the operating mode due to auto / vvj / j, tJ ti (j jVLJV 4y -i.t4i L / v-YlvrilTj (J4, i / I, „lUtlV- matically controlling the amount of air passing through the unit Perature in the drying zone. Invention Formula 1. Installation for drying paint-and-lacquered products containing a camera with a conveyor for moving products and placed on both sides of the latter partitioned panels of infrared emitters installed with the possibility of changing their position relative to the product and connected to a power source, and a heat transfer system along products with nozzles its input and output, characterized in that, in order to increase quality of drying and efficiency, nozzles input and output coolant made in the form located along the same axis with the product two pairs of butterfly valves forming slot nozzles and equipped with water, each section of infrared radios and control units through which the sensor is connected with the drive of the valves and electrical circuits of sections of radiators . 2. Installation according to claim 1, characterized in that the temperature sensor is mounted for displacement along the chamber volume and provided with latches. FIG. 2