RU2338963C1 - Device for control of hot-air curtain - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: due to change of angle and speed of air exhaust, curtain jet has alternating parameters in height of gates opening, which provides more efficient protection of premises against breakthrough of external air, additional effect is given by automatic optimisation of specified curtain parameters, realised on the basis of microprocessor control controller with account of actual filling of opening. Therefore minimum operational costs are provided for functioning of hot-air curtains with observance of preset requirements to parameters of microclimate in specific industrial premises.

EFFECT: provision of sanitary-hygienic norms in industrial premises at minimum expenses for heating.

1 dwg

Description

The invention relates to the field of ventilation and can be used to create favorable sanitary conditions both in the room as a whole and in individual workplaces.

Known curtain (1), designed to prevent breakthrough of cold air into the production room through transport openings containing a tambour, air risers in the opening of the tambour and at the gates of the building, a fan with an air curtain heater and a fan of the external curtain, while air is supplied to the risers of the external curtain an external fan of general exchange exhaust ventilation from the production room, risers are located at the entrance to the vestibule, the vestibule is made stationary or movable in the form of a gateway with double elastic walls s, and the movement of the external risers in this case is carried out along guides, for example, rails, as the double elastic walls are filled with air.

The disadvantage for this device is the low operational reliability, complexity, and sometimes structurally due to the impossibility of installation in existing production facilities.

A curtain is also known (2), the HDWV modification of which provides for the vertical placement of the curtain in the column and contains an exhaust nozzle that covers the entire width of the doorway (when the curtain is vertically placed in the column, the exhaust nozzle covers the entire opening in height) and has an adjustable angle of inclination of the nozzle to increase protection efficiency, as well as an HDGL gate open sensor connected to one or two HDR4 controllers for setting two high-speed modes of pumping the air flow with a curtain when opening and closing doors . Highest efficiency is achieved when the airflow is dissipated from the wall / door fence on the opposite side of the doorway from the curtain.

The disadvantage of this device is the presence of only a manual mode for setting the main parameters - temperature, speed and direction of the air flow created by the curtain, which significantly reduces the effectiveness of its application.

The closest technical solution to the claimed one is a device (3) containing a microprocessor control controller, to which external and supply air temperature sensors are connected, state sensors of door / door opening mechanisms, temperature control of heating elements (air heater), control panel for manual translation mode of operation. The device maintains a predetermined supply air temperature and room temperature in automatic mode. It is taken as a prototype.

The disadvantage of this device is that it does not take into account the speed and direction of the outside air, the degree of overlap of the opening by vehicles, and, accordingly, the air flow parameters of the curtain are not optimal.

The technical result of the claimed invention is the automatic control of the parameters of the curtain air - the angle and speed of air release along the height of the opening depending on the size of the controlled parameters - the temperature of the air outside and inside the room, the speed and direction of the wind, the degree of overlap of the opening by vehicles, to ensure sanitary and hygienic standards in industrial premises with minimal heating costs.

The technical result is achieved due to the fact that the composition of the known device containing a microprocessor control controller, to which are connected the state sensors of mechanisms for opening gate / door openings, air temperature sensors inside and outside the room, control units for temperature and air flow rate of the curtain, control unit for the mechanism the rotation of the blinds of the curtain, a remote control for the operating modes of the curtain, several (at least three) mechanisms for turning the blinds are introduced, and the blinds themselves are made of separate plates interconnected by elastic elements, the elastic coefficients of which vary non-linearly along the height of the opening, the rotation mechanisms are connected to the control unit module, the other outputs of which are connected to the air supply regulator in the curtain and the air temperature regulator, the inputs of the control module are connected to the microprocessor control controller, to which are connected also through the data generation unit a module of equipment status sensors (including opening gates / doors of an aperture), of which additionally introduced sensors of the degree of filling of the opening, a module of indoor air temperature sensors, which additionally includes temperature sensors of equipment surfaces, an outdoor temperature sensor module, which additionally includes wind speed and direction sensors, as well as a manual control module containing an adjustment panel and manual control of the curtain and monitor operation mode.

The essence of the invention is that due to changes in the angle and speed of air release, the curtain air curtain has variable parameters along the height of the doorway opening, which provides more effective protection of the room from outside air breakthrough, an additional effect is provided by automatic optimization of the specified curtain parameters, implemented on the basis of a microprocessor control controller taking into account the actual filling of the opening.

The invention is illustrated in the drawing, which shows a block diagram of a controlled curtain.

The device contains a module 1 of state sensors of mechanisms, which includes sensors 1.1 of opening the door / door opening and sensors 1.2 of the degree of filling of the opening, which are connected through the data generation module 2 to the microprocessor control controller 3, and through the data generation module 2 to the microprocessor control controller 3 also a module 4 of indoor air temperature sensors, including air temperature sensors 4.1 and surface temperature sensors 4.2. equipment 4.2. An external temperature sensor module 5 is also connected to the data generation module 2, which includes temperature sensors 5.1, speed sensors 5.2 and wind direction sensors 5.3, and a manual control module 6 is connected to the data generation module 2, which includes a monitor 6.1 and a 6.2 console adjustments and manual control of the operation mode of the curtain.

A control module 7 is also connected to the microprocessor control controller 3 through a data generating module 2, a control module 7 comprising a control unit 7.1 for controlling the shutter 9 of the shutters 9, a control unit 7.2 for controlling the air supply to the air curtain 10 and a control unit 7.3 for controlling the supply air temperature regulator 11.

The proposed device operates as follows. The inclusion of the air-thermal curtain occurs according to signals from the sensors of module 1, namely from the sensor 1.1 of the opening of the gate / doorway. Until this time, the passage of signals from the sensor 1.2 of the degree of filling of the opening is blocked by the corresponding signals from the sensor 1.1 of the opening of the gate / door of the opening. Corresponding information from the sensors of module 1 through the data generation module 2 is fed to the microprocessor control controller 3, the other inputs of which 1 through the data generation module 2 also receive information from the indoor temperature sensor module 4. Based on information from air temperature sensors 4.1 located at control points and temperature sensors 4.2 of the equipment’s monitored surfaces 4.2, as well as information from module 5 of outdoor temperature sensors, which includes temperature sensors 5.1, speed sensors 5.2 and sensors 5.3 wind direction, preliminary information is generated in the microprocessor control controller 3 containing data about the parameters of the curtain, which will be optimal for the current situation (calculation algorithms about optimality parameters are considered in detail in the technical literature 4, 5, 6 and other sources).

Thus, by the time the gates / doors open, the parameters of the air-thermal curtain are already calculated. The manual control module 6, comprising a monitor 6.1 and a remote control 6.2 for adjusting and manually controlling the operation mode of the curtain, receives information on the predicted parameters of the air-thermal curtain and a request for the predicted time for opening the door / door. This will minimize the cost of heating the coolant.

Before opening the door / doorway, the microprocessor control controller 3 through the control module 7 performs a test survey of the working condition of the control unit 7.1 for controlling the mechanisms of rotation of the blinds, control unit 7.2 of controlling the air supply to the curtain, control unit 7.3 of the control of the temperature of the supplied air and the following: 9, a regulator 10 for supplying air to the curtain and a regulator 11 for supply air temperature.

From the moment of opening the door / door opening, the air curtain is switched on by signals from the sensor 1.1 of opening the door / door of the opening of module 1. The degree of actual closing time of the opening of incoming / outgoing vehicles is controlled by the sensor 1.2 of the degree of filling of the opening, information from which through the module 2, the data is fed to the microprocessor control controller 3. The formation of control information in the microprocessor control controller 3 occurs in the same way as described above (by analogy with the formation of preliminary information), however, this information is more dynamic in nature, in particular with regard to taking into account the current temperature change in the control points inside the room.

The control information from the outputs of the microprocessor control controller 3 is supplied to the control module 7 and then through the control unit 7.1 of the control mechanisms of the blinds and the associated mechanisms 8 of the shutters 9, the initial (initial) state of the blinds 9 changes, in turn, the control unit 7.2 of the controller 10 air supply into the curtain provides the necessary speed of the release of heated air from the slit of the curtain, the shape of which is set by the blinds 9. At the same time, the control unit 7.3 by means of the regulator 11 tours provide the necessary supply air temperature.

As a result of the above actions, an air-thermal curtain will be formed in the space of the opening, the parameters of which vary non-linearly along the height of the opening. The rotation mechanisms 8 of the blinds 9, made of separate plates and interconnected by elastic elements, the elastic coefficients of which vary non-linearly, provide sufficient for practice the coincidence of the calculated and real parameters of the curtain. As a result, this ensures a minimum of operating costs for the operation of air-thermal curtains, subject to the specified requirements for the microclimate parameters of specific production facilities.

Nevertheless, the device provides both correction modes for the calculated parameters that are output from the microprocessor control controller 3 to the monitor monitor 6.1 of the manual control module 6, and fully manual control modes of the curtain operation mode using the correction console 6.2 and manual control of the curtain operation mode.

Literature

1. P.I.Kilin, M.I. Grachev. Double air curtain. Patent No. 96111509, cl. F24F 009/00.

2. Air-curtains of the company Pyrox Screen Master HDWV, publ. on the Internet site www.mirrabela.ru/12/53/11622.html.

3. The control system for the supply chamber with water heating and a control water valve (SAU-I), publ. on the Internet site http://www.innovent.da.ru; E-Mail: avinn@cityline.ru (prototype).

4. Designer Handbook: Internal Sanitary Devices. Part 3. Ventilation and air conditioning. Book 1 / V.N. Bogoslovsky, A.I. Pirumov, V.N. Posokhin and others. Ed. Pavlova N.N. and Schiller Yu.I. 4th ed., Rev. and add. M .: Stroyizdat, 1992.

5. M.V. Nikulin. Improving the energy efficiency of air curtains by optimizing the design parameters. // Scientific research in the field of heating, ventilation and air conditioning. Sat scientific tr M.: Central Research Institute of Industrial Buildings, 1989.

6. Strongin AS, Nikulin MV A new approach to the calculation of air-thermal curtains. // Construction and architecture. Izv. Universities. 1991. No1.

Claims (1)

An air-thermal curtain control device comprising a microprocessor control controller, to which are connected the state sensors of door / door opening mechanisms, air temperature sensors inside and outside the room, air temperature and air velocity control units, curtain air curtain shutter control unit, a manual remote control control modes of operation of the curtain, characterized in that it additionally introduced several (at least three) mechanisms for turning the blinds, and the blinds themselves are made from platelets interconnected by elastic elements, the elastic coefficients of which vary non-linearly along the height of the opening, the rotation mechanisms are connected to the control unit module, the other outputs of which are connected to the air supply regulator in the curtain and the air temperature regulator, the inputs of the control module are connected to the microprocessor control controller , to which are also connected via a data generation unit a module of sensors of the state of mechanisms for opening gate / doorway openings, of which sensors for the degree of filling of the opening, a module of sensors for indoor air temperature, which additionally includes temperature sensors for equipment surfaces, a module for outdoor temperature sensors, which additionally includes wind speed and direction sensors, and a manual control module containing an adjustment panel and manual control of the curtain and monitor operation mode.