SU746208A1 - Apparatus for testing cementing mastic in web roof covering - Google Patents

Description

The invention relates to devices intended for testing building structures, and can be used in laboratory conditions when testing gluing mastics for heat resistance in breathing roofs. ''

A device for testing mastics for heat resistance, including a heater, thermometers and stands for testing samples G1].

There is another device for testing gluing mastics in roll roofs, including a screen with heat emitters, temperature sensors and a stand [2].

However, on well-known devices it is impossible, for example, to identify and trace the nature of changes in adhesive mastics that have been in the exploited roof structure for a long time, and which undergoes changes from temperature influences during the summer period of the hottest month. When operating roofs in the summer, the temperature on the roof surface and in the subroofing is different. Moreover, this temperature difference depends on the number of glued-on layers of the rolled roof, the color of the roof surface of the climatic region of construction, etc. (This temperature difference cannot be detected on known devices).

At high temperatures during operation, the mastic in the subroofing layer can periodically be melted and. flow downhill. And if during continuous gluing of the roofing carpet to the base these changes in mastic do not immediately affect the design features (5 roofs, then in the breathing roofs melting of the mastic is unacceptable. In breathing roofs during their operation it is necessary to keep sinuses-gaps interconnected, 20 which are formed between in the case of melting at these points of mastic, the latter on the coverings with a slope will begin to flow, filling in the sinus-fissures. Moreover, ventilation will not take place 25,

those. sinuses will be filled with mastic. Therefore, it is important to identify the temperature regime of breathing roofs under operating conditions, at which 30 gluing mastic will remain

five of their properties. It is necessary to know and see how the form and size of the mastic will change in the places of gluing (in points) in case of melting from temperature influences.

The purpose of the invention is the provision of determining heat resistance and detecting. the change in the external form of the adhesive mastic at the points of the sample breathing-blood from exposure to temperatures. ’

This is achieved by the fact that a device for testing gluing mastics in roll roofs, including a screen with heat emitters, temperature sensors and. the stand is equipped with a regulator, a magnetic starter of the circuit of heat emitters and a security heat insulator, the stand is made in. in the form of a transparent glass mounted in a frame with mastic glued to it through the points of the perforated material of the sample of the breathing roof, it is installed at an angle to the screen with heat emitters with the possibility of movement in height relative to it, the temperature sensors being located between the glass and the sample of the breathing roof on the sample surface and connected through a regulator with a magnetic starter of the circuit of heat emitters, and a safety heat insulator is installed at the bottom of the glass.

The invention is illustrated in the drawing. The device has a stand with an opening in the plan ¹ 1, on which the racks 2 and the frame 3 with dimensions in the plan 520x520 mm, made of light metal corners, are attached. The frame 3 is attached to the stand 1 by means of hinges 4. The required slope of the frame 3 is attached using the brackets 5 with graduation and fixed with the clamping screw 6. The racks 2 can be moved and fixed at the required height with the clamping * bolts 7 of the screen 8, in which are mounted and the heat emitters are evenly distributed 9. The screen 8 can change its position relative to the horizontal axis and be fixed with the help of clamping bolts 10. In the frame 3, glass 11 is freely placed on the shelves of the corners by pre-glued to it through Without a point of perforated roll roofing material 12 with mastic 13 of a test sample of a breathing roof 14 with a plan size of 500X500 mm (the number of layers of roll roofing materials in the sample depends on the type of roof being tested). Between the glass 11 and perforated material 12, a temperature sensor 15 is placed in the center. 15 also a temperature sensor 16 mounted on the surface of the test roof sample, and a temperature sensor 17 for controlling the temperature. The temperature sensors 15, 16.17 are connected to the controller 18, which records the temperature and automatically turns on and off the heat emitters 9. The required temperature of the heat emitters 9 is set with the help of the regulator 18 and the height of the screen 8, the glass 11 at the bottom is closed by a security heat insulator 19 to prevent heat leakage. The required (set) temperature on the heat emitters 9 is supported automatically by a regulator 18, which turns the heat emitters on and off with a magnetic starter 20.,

A device for testing adhesive mastics in roll roofs works as follows.

First, a test sample is prepared. To do this on glass

11, perforated roll material 12 is laid dry with a plan size of 500x500 mm (glass size). A temperature sensor 15 is installed between glass 11 and perforated material 12 (in the center). Then mastic 13 is applied and regular non-perforated roll material is immediately glued, number of layers which in the tested sample of the breathing roof 14 depends on the type of roof. After 6-8 hours of exposure, when the temperature of the glass and the roof sample. Will correspond to the temperature of the environment where the tests are carried out, glass il with a glued sample. the breathing roof 14 is placed in the frame 3. The frame 3 is given the corresponding slope of the roof and is fixed in the brackets 5 with clamping screws 6.

A® temperature sensor 15 is connected to the regulator 18. At the same time on the surface of the sample 14 set. temperature sensors 16 and 17, the controller 18 simultaneously and automatically adjusts the temperature of the heat emitters 9, i.e. a constantly set temperature is maintained on the surface of the roof sample 14. The signal from the temperature sensor 50 17 is supplied to the controller 18, which either turns on or off the heat emitters 9 using a magnetic starter 20. The controller 18 and heat emitters 9 are connected 55 to the power grid. Screen 8 with heat emitters. 9 are installed parallel to the frame 3 with the sample 14. Moreover, by adjusting the distance from the test sample 14 and the screen 8, they achieve and set the necessary temperature on the surface of the sample 14 of a particular construction area in the hottest summer month. The final adjustment of the temperature to the desired parameters is carried out using the regulator 18. To prevent heat leakage from the glass 11, a removable heat insulator 1'9 is installed. At the moment of changing the temperature sensor temperature indication 15 in comparison with the ambient air temperature, where 5 tests are carried out, they begin to visually observe through glass 11 the nature of the change in adhesive sticks 13. If changes occur, the size of the sticking points jq of the sticks 13 is fixed (in comparison with the original size), the time after which these changes occurred, and the temperature in the subroofing layer and on the roof surface of the sample. All these parameters will allow you to find the most optimal solution when choosing the right composition of the adhesive mastic. Moreover, accelerated testing of samples of breathing roofs can be performed at this installation, 20 setting and maintaining constantly extreme temperatures on samples that can test roof surfaces in the hottest summer months during operation in various construction areas'

Claims (2)

-. ... I The invention relates to devices for testing building structures, and can be used in laboratory conditions when testing adhesives for heat resistance in breathing roofs. A device for testing heat resistance mastic is known, including heater / thermometers and supports for testing samples Cl. Another device for testing adhesive pastes in roll roofs, including a screen with heat radiators, temperature sensors and a stand fSJ. However, on known devices, it is not possible, for example, to detect and follow the nature of the change by gluing auxiliary mastics, which are for a long time in the roof structure in use, and experiencing a change from temperature effects in the summer period of the hottest month. During the operation of roofs in the summer period, the temperature on the surface of the roof and in the sublayer is different. Moreover, this temperature difference depends on 6 tons of the number of glued layers of the roll roof, the color of the surface of the blood of the climatic region of construction, etc. (This difference of temperature on known devices cannot be detected). At high temperatures during operation, the mastic in the under-roofing layer can periodically melt and flow down the slope. And if, with continuous gluing of the roofing carpet to the base, these changes in the mastic do not immediately affect the design features of the roof, then in the breathing roofs the melting of the mastic is unacceptable. In breathing roofs, during their operation, it is necessary to maintain interconnected sinus-slits, which are formed between the gluing points. In the case of melting at these points, the mastic, the last on coatings with a slope will begin to flow, filling the sinus-slit. It will not ventilate, i.e. the sinuses will be filled with mastic. Therefore, it is important to determine the temperature regime of breathing roofs in conditions of operation, under which the adhesive mastic will retain its properties. It is necessary to know and see how i will be. with the shape and size of the mastic in the places of gluing (in points) in case of melting from temperature effects. The purpose of the invention is to provide a determination of heat resistance and to detect changes in the external form of the adhesive mastic at the points of the breathable roof sample from temperature. This is achieved by the fact that the device for testing sticking 1B SCHEDULE: x mastic in roll roofs, including a screen with heat radiators, temperature sensors and. the stand, equipped with a regulator, a magnetic radiator of a radiator circuit and a protective heat insulator, a stand made in the form of transparent glass framed with mastic glued to it through the points of the perforated material of the sample of the breathing roof, is set at an angle to the screen with heat emitters that can be moved height relative to it, and the sensors t temperature are located myad steklbm and. a sample of a breathable roof. the surface of the sample and. are connected through a regulator with a magnetic actuator to a chain of heat radiators, and a protective heat insulator is installed at the bottom of the glass. The invention is illustrated in the drawing. The device has a stand with a pro- gram in plan 1, on which the rack 2 and frame 3 with a meter in plan 520x520 Mm, is made of light metal corners. The frame 3 is attached to the stand 1 with the help of hinges 4. The required slope of the frame 3 is attached by means of brackets 5 with graduation and fixed with a clamping screw 6. The racks 2 can be moved and fixed at the required height using clamp bolts 7 a screen 8 in which are mounted and the heat radiators 9 are evenly distributed. The screen 8 can change its position relative to the horizontal axis and be fixed with the help of clamping bolts 10. Glass 11 can be laid on the corner shelves 11c — front | glued to it through the points of the perforated roll roofing material 12 with mastic 13 test specimen of a breathable roof 14 with a plan size of 500X300 mm (the number of layers of roll roofing materials in the sample depends on the type of roof we are testing). A temperature sensor is placed between the glass 11 and the perforated material 12 in the center 15. A temperature sensor 16, installed on the surface of the test sample of the roof, and a temperature sensor 17 for temperature control are also provided. The temperature sensors 15, 16, 17 are connected to the controller 18, which records the temperature and automatically switches on and off the heat radiators 9. The temperature of the heat radiators 9 is required and is set using the regulator 18 and the height of the screen 8. The glass 11 at the bottom is covered with a protective heat insulator 19 to prevent heat leakage. The required (setting) temperature on the radiators 9 is automatically maintained by means of the regulator 18, which switches the circuit of the radiators on and off by the magnetic starter 20. A device for testing the gluing of mastic in roll roofs works as follows. First, a test specimen is prepared. For this, perforated rolled material is stacked on glass 11 ;: 12 with a size of platinum (size of glass). Between the glass 11 and the perforated material 12 CB, a temperature sensor 15 is installed. Then mastic 13 is applied and the usual non-perforated rolled material is immediately glued, the number of layers of which in the test sample of the breathable roof 14 depends on the type of roof. After 6-8 hours of exposure, when the temperature of the glass and the roof sample is in accordance with the ambient temperature where the test is carried out, glass 11 with the breathing roof sample 14 glued into frame 3. Frame 3 is attached to the corresponding roof slope and fixed in brackets with 5 clamping screws 6. The temperature sensor 15 is connected to the controller 18. Simultaneously on the surface of the sample 14 the installation pressure is set to -. The temperature sensors 16 and 17, the regulator 18 simultaneously performs an automatic adjustment of the temperature of the heat radiators 9, i.e. A constant predetermined temperature is maintained on the surface of the roof sample 14. The signal from temperature sensor 17 is fed to controller 18, which either turns on or off heat radiators 9 using a magnetic starter 20. Regulator 18 and heat radiators 9 are connected to the power grid. Screen 8 with heat emitters. 9 are installed parallel to frame 3 with sample 14, moreover, by adjusting the distance from test sample 14 and screen 8, they achieve a li setting of the required temperature on the surface of sample 14 of a particular construction area in the hottest summer month. The final temperature adjustment to the required parameters is carried out using the controller 18. To prevent heat leakage from under the glass 11, a removable heat insulator 19 is installed. At the time of changing the temperature indicator readings of the temperature sensor 15 compared to the temperature of the ambient air where the tests are performed begin to visually observe through the glass 11 the characteristic of the change in the adhesive mastic 13. If changes occur, the size of the adhesive points of the mastic 13 is fixed (in comparison with the original size), the time after which these changes occurred, and the temperature in the under-roof layer and on the surface of the sample roof. All these parameters make it possible to find the most optimal solution when selecting the desired composition of the adhesive mat. Moreover, it is possible to make accelerated tests of breathing roofs on this installation, setting and maintaining constantly extreme temperatures on samples that can test roof surfaces during the hottest summer months in the process of exams in various construction areas. Invention Formula Testing Device for Paste-Free Pastes roof x. including the screen with heat radiators, temperature sensors, and a stand that differs from them in order to determine the heat resistance and detect changes in the external shape of the adhesive mastic at the points of the sample of the roof from temperature effects. The device is equipped with a regulator, a pumped actuator of a chain of heat radiators and a protective heat insulator, the stand is made as a transparent glass framed in a frame with mastic glued to it through the points of a perforated material sample of a single roof, installed at an angle to the screen with heat emitters height relative to it, with temperature sensors located between the glass and the sample of the breathing roof on the surface of the sample and connected through a regulator with a magnetic starter circuit eploizluchateley and protective heat-torus is installed at the bottom of the glass. Sources of information taken into account in the examination 1. Wall, roofing and insulation materials, Gosstandart M. 1965, p.197 2. Manuilov L.A. and others. Methods of laboratory testing of building materials and building parts, Higher school, M., 1968, p.380.