CN221280897U - Outdoor environment simulation box for building materials - Google Patents

Abstract

The application discloses an outdoor environment simulation box for building materials, which is used for determining the influence of temperature, wind speed and humidity on samples, and comprises a box body, an environment variable component, a temperature control component, a wind speed control component and a humidity control component, wherein the box body is provided with an in-box space, at least one air inlet and outlet communicated with the in-box space and an experimental platform, the experimental platform is used for placing the samples, the environment variable component at least comprises an infrared light lamp, a fan and a humidifier, the temperature control component is used for controlling the infrared light lamp, the wind speed control component is provided with a fan controller, and the humidity control component is provided with a humidity controller, so that the temperature, the wind speed and the humidity of the in-box space are changed, and the influence effect of the temperature, the wind speed and the humidity on the samples is confirmed through single or multiple variables.

Description

Outdoor environment simulation box for building materials

Technical Field

The utility model relates to the field of building materials, in particular to an outdoor environment simulation box for building materials.

Background

The materials of construction surfaces are plentiful and diverse. In early days, exterior structures of walls were formed by laying bricks or stones on the wall. Through years of changes, early bricks, stones and the like are converted into the existing outdoor coatings, mortar and the like.

However, when users use materials such as external coating and mortar, outdoor walls often generate cracks on waterproof mortar layers or cracks on coating layers. The situation easily causes rainwater to infiltrate into a room along cracks, the indoor wall surface is damaged if the rainwater is light, the wall inner structure is damaged if the rainwater is heavy, and the phenomenon of collapse occurs, so that the human body is dangerous, and therefore, an environment simulation box is required to be used for carrying out simulation experiments, and the causes of the outer wall cracks are analyzed, so that the prevention, the control and the repair are carried out.

The environment simulation box is an experimental device for simulating the environment through various devices. In the prior art, an outdoor environment simulation box for building materials can simulate outdoor environment variables, but the existing outdoor environment simulation box for building materials does not simulate outdoor common wind speed, illumination and humidity at the same time, so that the main reasons of cracking of an outer wall using outdoor coatings and mortar cannot be analyzed.

Disclosure of utility model

An advantage of the present utility model is to provide an outdoor environment simulation box for building materials that can simulate the wind speed, light and humidity common outdoors at the same time, collecting data by changing variables.

An advantage of the present utility model is to provide an outdoor environmental simulation box for building materials that can be provided with a single variable, or two or three different variables, to determine the effect of temperature, wind speed and humidity on the sample.

To achieve at least one of the above advantages, the present utility model provides an outdoor environment simulation box for a building material, the outdoor environment simulation box for a building material comprising:

The box body is provided with an inner box space, at least one air inlet and air outlet communicated with the inner box space and an experiment platform, the experiment platform forms the lower end part of the inner box space, and the experiment platform can be used for placing the sample;

The environment variable component comprises at least one infrared light lamp, at least one fan and at least one humidifier, wherein the infrared light lamp is arranged in the box space, the infrared light lamp is positioned above the sample, the fan is arranged at the air inlet and outlet opening in a mode that an air inlet opening faces the box space, the humidifier is provided with a humidifier air outlet opening, and the humidifier air outlet opening is communicated with the box space;

The temperature control assembly comprises an infrared controller which is controllably connected with the infrared light;

The wind speed control assembly comprises a fan controller which is controllably connected with the fan;

a humidity control assembly including a humidity controller controllably connected to the humidifier.

According to one embodiment of the utility model, the experiment platform is provided with at least one sample placement area.

According to an embodiment of the present utility model, the housing includes an overhead member and a housing, the housing forming the in-housing space, the overhead member being mounted in the in-housing space in such a manner as to be supported above the experiment table.

According to an embodiment of the present utility model, the number of the sample placement areas is set to two, the number of the samples is set to a plurality, and the samples can be placed on the sample placement areas and the overhead member at the same time.

According to an embodiment of the utility model, the infrared light lamp is arranged to be movable in the space inside the tank.

According to an embodiment of the present utility model, the position of the humidifier outlet of the humidifier is set downwind of the fan blowing air, so that the water vapor blown out by the humidifier is blown toward the sample by the fan.

According to one embodiment of the present utility model, the temperature control assembly includes a temperature sensor mounted adjacent to the location of the sample, the temperature sensor being in communication with the infrared controller.

According to an embodiment of the utility model, the wind speed control assembly comprises an air volume sensor, wherein the air volume sensor is arranged at a position adjacent to the position where the sample is located, and the air volume sensor is in communication connection with the fan controller.

According to one embodiment of the present utility model, the humidity control assembly includes a humidity sensor mounted adjacent to the location of the sample, the humidity sensor being in communication with the humidity controller.

According to an embodiment of the present utility model, the temperature sensor, the air volume sensor, and the humidity sensor can be simultaneously disposed at adjacent positions to the position of the sample.

Drawings

Fig. 1 shows a schematic perspective view of an outdoor environment simulation box for building materials according to the present utility model.

Fig. 2 shows a schematic cross-sectional view of an outdoor environment simulation box for building materials according to the present utility model.

Fig. 3 shows a schematic cross-sectional view of another direction of the outdoor environment simulation box for building materials according to the present utility model.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the utility model. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the utility model defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the utility model.

It will be appreciated by those skilled in the art that in the present disclosure, the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc. refer to an orientation or positional relationship based on that shown in the drawings, which is merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the above terms should not be construed as limiting the present utility model.

It will be understood that the terms "a" and "an" should be interpreted as referring to "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, while in another embodiment, the number of elements may be plural, and the term "a" should not be interpreted as limiting the number.

Referring to fig. 1 to 3, an outdoor environment simulation box for building materials according to a preferred embodiment of the present utility model, which includes a box body 10, an environment variable component 20, a temperature control component 30, a wind speed control component 40 and a humidity control component 50, will be described in detail below.

As shown in fig. 1, the case 10 has an interior space 101 and at least one air inlet/outlet 102 communicating with the interior space 101, the case 10 has an experiment table 11, the experiment table 11 forms a lower end portion of the case 10, and the experiment table 11 has at least one sample placement area 1101 for placing a sample for experiment.

The environment variable assembly 20 includes at least one infrared light lamp 21, at least one fan 22, and at least one humidifier 23, the infrared light lamp 21 is installed in the indoor space 101, and the infrared light lamp 21 is located above the sample placement area 1101, and the infrared light lamp 21 can radiate energy to simulate outdoor sunlight.

The blower 22 is installed at the air inlet/outlet 102 with the air inlet toward the in-box space 101, and the blower 22 can be used to blow air into the in-box space 101, to simulate an outdoor wind speed,

The humidifier outlet 2301 of the humidifier 23 is provided in communication with the in-tank space 101, and the humidifier 23 is configured to blow out moisture to the in-tank space 101 to simulate outdoor air humidity.

It will be appreciated by those skilled in the art that the infrared light lamp 21, the blower 22 and the humidifier 23 can simulate the temperature, the wind speed and the humidity, respectively, among outdoor environmental factors, so that the infrared light lamp 21, the blower 22 and the humidifier 23 can simulate the indoor space 101 of the outdoor environmental simulation box for building materials into a normal outdoor environment.

Preferably, the infrared light lamp 21 is movable in the in-box space 101 so that a worker can change the position of the infrared light lamp 21 to radiate by moving the infrared light lamp 21, facilitating adjustment of the angle of the sample radiation.

As shown in fig. 2 and 3, the temperature control assembly 30 includes an infrared controller 31, the infrared lamp 21 is controllably connected to the infrared controller 31, and the infrared controller 31 controls the intensity of the energy radiated from the infrared lamp 21 to simulate solar light, thereby controlling the temperature in the interior space 101.

The wind speed control assembly 40 includes a fan controller 41, the fan 22 is controllably connected to the fan controller 41, and the fan controller 41 controls the fan 22 to control the wind speed in the space 101, so that the sample can bear different wind speeds in the space 101.

The humidifier 23 has a humidifier outlet 2301, the humidifier outlet 2301 is disposed in communication with the interior space 101, and the humidifier 23 ejects water vapor from the humidifier outlet 2301 to enable the humidifier 23 to simulate overcast and rainy weather, thereby increasing the humidity within the interior space 101.

Preferably, the position of the humidifier outlet 2301 is set downwind from the wind blown by the blower 22 so that the moisture blown by the humidifier 23 is blown toward the sample by the blower 22, so that the humidifier 23 can increase the humidity better.

More preferably, the humidity control assembly 50 includes a humidity controller 51, the humidity controller 51 is controllably connected to the humidifier 23, and the humidity controller 51 can control the humidifier 23 to control the humidity in the space 101, so as to cooperate with the humidifier 23 to rapidly change the humidity in the space 101.

Preferably, the tank 10 comprises an overhead member 12 and a tank body 13, wherein the tank body 13 forms the tank interior space 101, the overhead member 12 being implemented as a wire mesh, as an example.

As shown in fig. 2, the overhead member 12 is installed in the in-box space 101 in such a manner as to be supported above the experiment table 11, and the overhead member 12 can overhead the sample in the in-box space 101, so that the bottom surface of the sample can also be blown by wind.

Preferably, the number of the sample placement areas 1101 on the experiment platform 11 is two, the number of the samples is plural, and plural samples can be placed on the sample placement areas 1101 and the overhead member 12 at the same time, so that the influence of different positions on the samples under the same external environment can be tested, and the influence of the environment on the samples can be better analyzed.

Preferably, the temperature control assembly 30 includes a temperature sensor 32, the temperature sensor 32 is mounted adjacent to the location of the sample, and the temperature sensor 32 is communicatively connected to the infrared controller 31. When the infrared light 21 irradiates the sample, the temperature sensor 32 senses the temperature of the position of the sample and feeds back the temperature to the infrared controller 31, and the infrared controller 31 selectively regulates the energy radiated by the infrared light 21 according to the feedback of the temperature sensor 32, so as to increase the accuracy of the temperature of the position of the sample and improve the reliability of the experiment.

Preferably, the wind speed control assembly 40 includes a wind volume sensor 42, the wind volume sensor 42 is installed adjacent to the location where the sample is located, and the wind volume sensor 42 is connected to the fan controller 41 in a communication manner. When the blower 22 blows air, the air volume sensor 42 can detect the air speed of the position where the sample is located and feed back the air speed to the blower controller 41, and the blower controller 41 selectively regulates the air speed blown out by the blower 22 according to the feedback of the air volume sensor 42, so as to increase the accuracy of the air speed of the position where the sample is located and improve the reliability of the experiment.

Also preferably, the humidity control assembly 50 includes a humidity sensor 52, the humidity sensor 52 being mounted adjacent to the location of the sample, the humidity sensor 52 being in communication with the humidity controller 51. When the humidifier 23 increases humidity, the humidity sensor 52 can detect the humidity of the position where the sample is located and feed back the humidity to the humidity controller 51, and the humidity controller 51 selectively regulates and controls the humidity blown out by the humidifier 23 according to the feedback of the humidity sensor 52, so as to increase the accuracy of the humidity of the position where the sample is located and improve the reliability of the experiment.

In one embodiment, the temperature sensor 32, the air volume sensor 42, and the humidity sensor 52 can be simultaneously disposed on the overhead member 12 adjacent to the location of the sample so that the temperature, air speed, and humidity of the location of the sample can be precisely controlled.

It will be appreciated by those skilled in the art that the outdoor environment simulation box for building materials can set one or more variables in temperature, wind speed and humidity. That is, the user can change the temperature, wind speed or humidity in the in-box space 101 through the temperature control assembly 30, the wind speed control assembly 40 and the humidity control assembly 50, thereby determining the influence of the main factors of the external environment on the sample through comparison.

It will be appreciated by persons skilled in the art that the embodiments of the utility model described above and shown in the drawings are by way of example only and are not limiting. The advantages of the present utility model have been fully and effectively realized. The functional and structural principles of the present utility model have been shown and described in the examples and embodiments of the utility model may be modified or practiced without departing from the principles described.

Claims (10)

1. An outdoor environmental simulation case for building materials, its characterized in that, an outdoor environmental simulation case for building materials includes:

The box body is provided with an inner box space, at least one air inlet and air outlet communicated with the inner box space and an experiment platform, wherein the experiment platform forms the lower end part of the inner box space and can be used for placing samples;

The environment variable component comprises at least one infrared light lamp, at least one fan and at least one humidifier, wherein the infrared light lamp is arranged in the box space, the infrared light lamp is positioned above the sample, the fan is arranged at the air inlet and outlet opening in a mode that an air inlet opening faces the box space, the humidifier is provided with a humidifier air outlet opening, and the humidifier air outlet opening is communicated with the box space;

The temperature control assembly comprises an infrared controller which is controllably connected with the infrared light;

The wind speed control assembly comprises a fan controller which is controllably connected with the fan;

a humidity control assembly including a humidity controller controllably connected to the humidifier.

2. The outdoor environmental simulation box for building materials according to claim 1, wherein at least one sample placement area is provided on the experiment platform.

3. An outdoor environment simulation box for building materials according to claim 2, wherein the box body comprises an overhead member and a box body, the box body forming the box interior space, the overhead member being mounted in the box interior space in such a manner as to be supported above the experiment table.

4. An outdoor environmental simulation box for building materials according to claim 3, wherein the number of the sample placement areas is set to two, the number of the samples is set to a plurality, and the samples can be placed on the sample placement areas and the overhead member at the same time.

5. An outdoor environment simulation box for building materials according to claim 1, wherein the infrared light lamp is provided movable in the box interior space.

6. The outdoor environment simulation box for building material according to claim 1, wherein a position of the humidifier outlet of the humidifier is set downwind of the fan blowing air so that the moisture blown out by the humidifier is blown toward the sample by the fan.

7. An outdoor environmental simulation box for building materials according to claim 1, wherein the temperature control assembly comprises a temperature sensor, the temperature sensor is arranged adjacent to the position where the sample is located, and the temperature sensor is in communication connection with the infrared controller.

8. The outdoor environmental simulation box for building materials according to claim 7, wherein the wind speed control component comprises an air quantity sensor, the air quantity sensor is arranged at a position adjacent to the position where the sample is located, and the air quantity sensor is in communication connection with the fan controller.

9. The outdoor environmental simulation chamber for building materials according to claim 8, wherein the humidity control assembly comprises a humidity sensor, the humidity sensor is installed adjacent to the location of the sample, and the humidity sensor is communicatively connected to the humidity controller.

10. The outdoor environment simulation box for building materials according to claim 9, wherein the temperature sensor, the air volume sensor and the humidity sensor can be simultaneously disposed at adjacent positions to the position where the sample is located.