JP6784890B1 - Inspection and measurement equipment for cold resistance of building materials - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose an inspection and measurement facility for cold resistance of building materials. SOLUTION: The inspection / measurement box and the inspection / measurement space installed in the inspection / measurement box are included, a holding mechanism is installed in the inspection / measurement space, and a test piece is placed in the inspection / measurement space. A support plate used for the purpose is installed, and the test piece contains an outer wall material and a stone material fixed to the front side of the outer wall material with an adhesive, and after placing the test piece on the front side of the support plate, the said The pinching mechanism presses the test piece against the front end surface of the support plate, places the building material in the present invention, and the present invention adjusts the temperature, wind force, and humidity to change the temperature of the building material test piece in four seasons. After a while, the test piece is subjected to a vibration test to observe whether or not the stone material falls off, and when the stone material falls off from the outer wall, the frequency of vibration when the stone material falls off is recorded, and thus the building material Cold resistance depends on whether or not it reaches the standard of use. [Selection diagram] Fig. 1

Description

The present invention is related to the field of building technology, and specifically, is an inspection and measurement facility for cold resistance of building materials.

As the economy develops, the number of high-rise buildings increases, and in order to improve the aesthetics of high-rise buildings, the outer walls of high-rise buildings all have stone materials such as marble, and stone materials such as marble are generally glued to the outer walls. In the natural environment, especially in the northern region, the temperature difference between winter and summer is large, so the temperature in winter is extremely low, and in spring and autumn, the temperature difference between morning and night is large, and such temperature changes The adhesive effect of the adhesive is reduced and the stone material may fall off, so it is necessary to inspect and measure the cold resistance of the adhesive and the stone material, and now there is no such equipment yet, as described above. The present invention is disclosed in order to solve the problem.

Chinese Patent Application Publication No. 109613404

An object of the present invention is to solve the above problems by providing an inspection and measurement facility for cold resistance of building materials.

The present invention is realized by the following technical plan.

The inspection and measurement equipment for cold resistance of building materials of the present invention includes an inspection and measurement box and an inspection and measurement space installed in the inspection and measurement box, and a holding mechanism is installed in the inspection and measurement space to measure the inspection and measurement. A support plate used for placing the test piece is installed in the space, and the test piece includes an outer wall material and a stone material fixed to the front side of the outer wall material with an adhesive, and supports the test piece. After being placed on the front side of the plate, the pinching mechanism presses the test piece against the front end surface of the support plate.
A cooling space is installed in the inspection / measurement box, a cooling air blowing mechanism is installed in the cooling space, an empty space is installed in the inner wall of the inspection / measurement space, and the air blown by the cooling air blowing mechanism is installed. The pipe and the empty space are communicated with each other, the empty space and the inspection measurement space are communicated with each other by the communication hole, and the cold air generated after the cooling air blowing mechanism is started enters the empty space, and the cold air is discharged. The temperature is lowered evenly with respect to the inspection / measurement space by entering the inspection / measurement space through the communication hole.
A humidifier is fixedly installed on the rear wall of the inspection measurement space, and the humidifier is used to simulate changes in humidity in the natural environment.
A wind blowing mechanism is installed in the inspection and measurement space, and the wind blowing mechanism can send wind to the test body to simulate the wind force in the natural environment and reflect the influence of the wind force on the test body.
A spray mechanism is installed in the inspection and measurement space, and the spray mechanism can spray water on the test piece, simulate rainwater in a natural environment, and reflect the influence of rainwater on the test piece.
A heating plate is fixedly installed on the front wall of the inspection / measurement space, and after the heating plate is started, the temperature in the inspection / measurement space is raised.
A vibration mechanism is installed in the inspection and measurement space, and after the test piece is processed for a certain period of time, the vibration mechanism vibrates the test piece, and the vibration mechanism continuously increases the vibration frequency. Depending on the frequency of vibration when the stone material falls off from the outer wall material, the strength of the cold resistance of the test piece can be obtained.

The wind blowing mechanism includes a rotation motor fixedly installed on the rear wall of the inspection measurement space, a rotation shaft is movably connected to the front side of the rotation motor, and a rotation block is fixed to the rotation shaft. A ventilation fan is fixedly installed on one end surface of the turning block.

The rotating shafts are installed symmetrically, and the left and right rotating shafts are movably connected by a pulley, whereby it is possible to simulate blowing winds in different directions.

The spray mechanism includes a water storage space installed in the inspection / measurement box, water is stored in the water storage space, and fixed blocks are symmetrically and fixedly installed on the rear wall of the inspection / measurement space. A connecting pipe is fixedly installed on the front end surface of the fixed block, an injection head is fixedly installed on one end of the connecting pipe, and a water pump is installed in the water storage space. The pipe and the water pipe of the water pump are communicated with each other.

A water receiving plate is fixedly installed on the rear wall of the inspection and measurement space, the water receiving plate is an arc-shaped plate, and a drain pipe is fixedly installed in the inspection and measurement space.

The water receiving plate has a structure in which the front end is high and the rear end is low, which provides convenience for water flow.

The pinching mechanism includes a guide space installed in the audit measurement space and communicating with the inspection measurement space, and a drive motor is fixedly installed on the front wall of the guide space and is located behind the drive motor. The screw rods are movably connected, the guide block is slidably installed in the guide space, the guide block and the screw rod are connected by threads, and the first buffer is provided on the rear end surface of the guide block. A space is installed, a first mounting block is slidably installed in the first buffer space, and a first spring is connected between the first mounting block and the inner wall of the first buffer space. An intermediate rod is fixedly installed on the rear end surface of the first mounting block, a transmission plate is fixedly installed on the rear end of the intermediate rod, and a connecting rod is vertically symmetrical on the rear end surface of the transmission plate. It is fixedly installed, and a holding plate is fixedly installed at the rear end of the connecting rod, and the holding plate abuts on the front end surface of the outer wall material to hold the outer wall material.

The vibration mechanism includes a second buffer space installed in the rear wall of the inspection and measurement space, and a second mounting block is slidably installed in the second buffer space, and the second mounting block and the second mounting block. A second spring is connected to the inner wall of the second buffer space, a motor is fixedly installed on the front end surface of the second mounting block, and a power shaft is movably connected to the front side of the motor. An eccentric ring is fixedly installed on the power shaft, and the front end of the power shaft and the rear end surface of the support plate are fixedly connected to each other.

A hygrometer and a thermometer are fixedly installed on the right wall of the inspection and measurement space.

The beneficial effect of the present invention is: The building material is placed in the present invention, and the present invention allows the building material test piece to experience the change of the four seasons temperature by adjusting the temperature, wind force, and humidity, and after a while, the test is performed. A vibration test is performed on the body to observe whether or not the stone material falls off, and when the stone material falls off from the outer wall, the frequency of vibration when the stone material falls off is recorded, and thus whether or not the cold resistance of the building material reaches the usage standard. It is divided.

In order to explain the invention of the present application in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the overall configuration of the present invention. FIG. 2 is a schematic configuration diagram of “AA” of FIG. FIG. 3 is a schematic configuration diagram of “BB” in FIG. FIG. 4 is a schematic configuration diagram of “CC” of FIG.

The building material cold resistance inspection / measurement equipment shown in FIGS. 1 to 4 includes an inspection / measurement box 10 and an inspection / measurement space 42 installed in the inspection / measurement box 10, and the inspection / measurement space 42 contains the inspection / measurement space 42. A holding mechanism 92 is installed, and a support plate 28 used for placing the test body 60 is installed in the inspection measurement space 42, and the test body 60 is formed of the outer wall material 30 and the outer wall material 30 with an adhesive. After the test body 60 is placed on the front side of the support plate 28 including the stone material 38 fixed to the front side, the holding mechanism 92 presses the test body 60 against the front end surface of the support plate 28.
A cooling space 11 is installed in the inspection / measurement box 10, a cooling ventilation mechanism 12 is installed in the cooling space 11, and an empty space 14 is installed in the inner wall of the inspection / measurement space 42. It occurs after the air pipe 13 of the cooling air blowing mechanism 12 and the empty space 14 are communicated with each other, the empty space 14 and the inspection measurement space 42 are communicated with each other through the communication hole 15, and the cooling air blowing mechanism 12 is started. The cold air enters the empty space 14, the cold air enters the inspection / measurement space 42 through the communication hole 15, and the temperature is lowered evenly with respect to the inspection / measurement space 42.
A humidifier 20 is fixedly installed on the rear wall of the inspection / measurement space 42, and the humidifier 20 is used to simulate a change in humidity in a natural environment.
A wind blowing mechanism 93 is installed in the inspection / measurement space 42, and the wind blowing mechanism 93 sends wind to the test body 60 to simulate the wind force in the natural environment, and the wind force gives the test body 60. Can reflect the impact
A spray mechanism 90 is installed in the inspection / measurement space 42, and the spray mechanism 90 sprays water onto the test body 60 to simulate rainwater in a natural environment, and reflects the influence of rainwater on the test body 60. Can,
A heating plate 49 is fixedly installed on the front wall of the inspection / measurement space 42, and after the heating plate 49 is started, the temperature in the inspection / measurement space 42 is raised.
A vibration mechanism 91 is installed in the inspection / measurement space 42, and after the test body 60 is processed for a certain period of time, the vibration mechanism 91 vibrates the test body 60, and the vibration mechanism 91 continuously vibrates. The strength of the cold resistance of the test body 60 can be obtained by the vibration frequency when the stone material 38 falls off from the outer wall material 30.

Beneficially, the wind blowing mechanism 93 includes a rotation motor 26 fixedly installed on the rear wall of the inspection measurement space 42, and a rotation shaft 24 is movably connected to the front side of the rotation motor 26. A rotation block 25 is fixedly installed on the rotation shaft 24, and a ventilation fan 27 is fixedly installed on one end surface of the rotation block 25.

As an advantage, the rotating shafts 24 are installed symmetrically, and the left and right rotating shafts 24 are movably connected by a pulley 29, whereby it is possible to simulate blowing winds in different directions.

Beneficially, the spray mechanism 90 includes a water storage space 34 installed in the test measurement box 10, water is stored in the water storage space 34, and the rear wall of the test measurement space 42 The fixed block 18 is symmetrically and fixedly installed, a connecting pipe 17 is fixedly installed on the front end surface of the fixed block 18, and an injection head 19 is fixedly installed on one end of the connecting pipe 17. A water pump 31 is installed in the water storage space 34, and the connecting pipe 17 and the water pipe 36 of the water pump 31 are communicated with each other.

To be beneficial, a water receiving plate 41 is fixedly installed on the rear wall of the inspection and measurement space 42, the water receiving plate 41 is an arc-shaped plate, and a drain pipe 40 is fixed to the inspection and measurement space 42. It is installed as a target.

As an advantage, the water receiving plate 41 has a structure in which the front end is high and the rear end is low, which provides convenience for water flow.

To be beneficial, the pinching mechanism 92 includes a guide space 52 installed in the audit measurement space 42 and communicating with the inspection measurement space 42, and a drive motor 50 is fixed to the front wall of the guide space 52. A screw rod 51 is movably connected to the rear side of the drive motor 50, a guide block 53 is slidably installed in the guide space 52, and the guide block 53 and the screw rod 51 are connected to each other. A first buffer space 58 is installed on the rear end surface of the guide block 53, and the first mounting block 57 is slidably installed in the first buffer space 58, and the first mounting block 57 is slidably installed. A first spring 56 is connected between the block 57 and the inner wall of the first buffer space 58, and an intermediate rod 54 is fixedly installed on the rear end surface of the first mounting block 57, and the intermediate rod 54 A transmission plate 55 is fixedly installed at the rear end, a connecting rod 39 is vertically symmetrically and fixedly installed on the rear end surface of the transmission plate 55, and a holding plate 22 is fixed at the rear end of the connecting rod 39. The holding plate 22 abuts on the front end surface of the outer wall material 30 to hold the outer wall material 30.

Beneficially, the vibration mechanism 91 includes a second buffer space 44 installed in the rear wall of the inspection measurement space 42, and a second mounting block 46 is slidable in the second buffer space 44. A second spring 45 is connected between the second mounting block 46 and the inner wall of the second buffer space 44, and a motor 47 is fixedly installed on the front end surface of the second mounting block 46. A power shaft 48 is movably connected to the front side of the motor 47, and an eccentric ring 43 is fixedly installed on the power shaft 48, and the front end of the power shaft 48 and the rear end surface of the support plate 28. Are fixedly connected.

For convenience, a hygrometer 23 and a thermometer 37 are fixedly installed on the right wall of the inspection / measurement space 42.

The order of mechanical operation of the entire invention of the present application is as follows.

1. 1. A test body 60 is made, and the stone 38 is fixed to the outer wall material 30 with an adhesive.
2. The test body 60 is placed in the inspection / measurement space 42, further placed on the front side of the support plate 28, the drive motor 50 is started to rotate the screw rod 51, the guide block 53 moves backward, and the transmission plate is moved by the intermediate rod 54. Drive 55 to move it backwards
3. 3. A connecting rod 39 having the same product name and standard as the transmission plate 55 drives the outer wall material 30 and moves it backward to tightly pinch the outer wall material.
4. The cooling blower mechanism 12 is started, the cold air enters the empty space 14 by the blower pipe 13, and is blown into the inspection measurement space 42 by the communication hole 15, whereby the temperature of the inspection measurement space 42 is evenly lowered and the temperature is lowered. The temperature in the inspection / measurement space 42 can be measured by the total 37, and when the temperature in the inspection / measurement space 42 reaches the specified requirement, the temperature does not decrease.
5. The water pump 31 is started on time, the water in the water storage space 34 is ejected by the water pipe 36, the connecting pipe 17, and the injection head 19, and the water is sprayed on the test body 60 to simulate a rainy situation.
6. Water falls on the water receiving plate 41 and is discharged by the drain pipe 40.
7. The humidity in the inspection and measurement space 42 can be measured by the humidity meter 23, and when the humidity in the inspection and measurement space 42 does not reach the specified requirement, the humidifier 20 is started and the humidifier 21 humidifies the air in the inspection and measurement space 42. If the humidity in the inspection / measurement space 42 is too high, the dehumidifier 16 is started to dehumidify until the humidity in the inspection / measurement space 42 reaches the specified requirement, thereby simulating the humidity change in the four seasons.
8. The ventilation fan 27 is started to send wind to the test body 60, the left and right ventilation fans 27 can be started separately, and after starting the rotation motor 26, the wind blowing angle of the ventilation fan 27 can be adjusted, thus blowing wind in different directions. You can simulate that
9. After the test body 60 has been processed for a certain period of time, the motor 47 is started, the power shaft 48 drives and rotates the eccentric wheel 43, and the test body 60 is driven and vibrated to continuously rotate the power shaft 48. When the stone 38 falls off from the outer wall material 30, the motor 47 stops and the vibration frequency is increased.
10. When the stone material 38 falls off from the outer wall material 30, the higher the frequency of vibration generated due to the falling off, the better the cold resistance of the test piece 60.

The above-mentioned examples merely explain the technical concept and features of the present invention, and the purpose thereof is to allow a person skilled in the art to understand the contents of the present invention and further implement the invention, and the scope of protection of the present invention cannot be limited. .. All equivalent changes or modifications made on the basis of the spiritual substance of the present invention should be included within the scope of the present invention.

Claims (9)

It includes an inspection / measurement box and an inspection / measurement space installed in the inspection / measurement box, a holding mechanism is installed in the inspection / measurement space, and a test piece is placed in the inspection / measurement space. A support plate is installed, the test piece contains an outer wall material and a stone material fixed to the front side of the outer wall material with an adhesive, and after the test piece is placed on the front side of the support plate, the holding mechanism is said to be said. The test piece is pressed against the front end surface of the support plate,
A cooling space is installed in the inspection / measurement box, a cooling ventilation mechanism is installed in the cooling space, an empty space is installed in the inner wall of the inspection / measurement space, and the ventilation of the cooling ventilation mechanism is installed. The pipe and the empty space are communicated with each other, the empty space and the inspection and measurement space are communicated with each other by the communication hole, and the cold air generated after the cooling air blowing mechanism is started enters the empty space, and the cold air is discharged. The temperature is lowered evenly with respect to the inspection / measurement space by entering the inspection / measurement space through the communication hole.
A humidifier is fixedly installed on the rear wall of the inspection and measurement space, and the humidifier is used to simulate changes in humidity in the natural environment.
A wind blowing mechanism is installed in the inspection and measurement space, and the wind blowing mechanism can send wind to the test body, simulate the wind force in the natural environment, and reflect the influence of the wind force on the test body.
A spray mechanism is installed in the inspection and measurement space, and the spray mechanism can spray water on the test piece, simulate rainwater in a natural environment, and reflect the influence of rainwater on the test piece.
A heating plate is fixedly installed on the front wall of the inspection / measurement space, and after the heating plate is started, the temperature in the inspection / measurement space is raised.
A vibration mechanism is installed in the inspection / measurement space, and after the test piece is processed for a certain period of time, the vibration mechanism vibrates the test piece, and the vibration mechanism continuously increases the vibration frequency. A building material cold resistance inspection and measurement facility, characterized in that the strength or weakness of the cold resistance of the test piece can be obtained by the vibration frequency when the stone material falls off from the outer wall material. The wind blowing mechanism includes a rotation motor fixedly installed on the rear wall of the inspection measurement space, a rotation shaft is movably connected to the front side of the rotation motor, and a rotation block is fixed to the rotation shaft. The building material cold-resistant inspection and measurement facility according to claim 1, wherein a ventilation fan is fixedly installed on one end surface of the turning block. The cold-resistant building material according to claim 2, wherein the rotating shafts are installed symmetrically, and the left and right rotating shafts are movably connected by a pulley, whereby it is possible to simulate blowing winds in different directions. Sex inspection and measurement equipment. The spray mechanism includes a water storage space installed in the inspection / measurement box, water is stored in the water storage space, and fixed blocks are symmetrically and fixedly installed on the rear wall of the inspection / measurement space. A connecting pipe is fixedly installed on the front end surface of the fixed block, an injection head is fixedly installed on one end of the connecting pipe, and a water pump is installed in the water storage space. The facility for inspecting and measuring the cold resistance of a building material according to claim 1, wherein the pipe and the water pipe of the water pump are communicated with each other. A water receiving plate is fixedly installed on the rear wall of the inspection and measurement space, the water receiving plate is an arc-shaped plate, and a drain pipe is fixedly installed in the inspection and measurement space. The inspection and measurement equipment for cold resistance of building materials according to claim 4. The cold-resistant inspection and measurement facility for building materials according to claim 5, wherein the water receiving plate has a structure in which the front end is high and the rear end is low, which provides convenience for water flow. The pinching mechanism includes a guide space installed in the audit measurement space and communicating with the inspection measurement space, and a drive motor is fixedly installed on the front wall of the guide space and is located behind the drive motor. The screw rods are movably connected, the guide block is slidably installed in the guide space, the guide block and the screw rod are connected by threads, and the first buffer is provided on the rear end surface of the guide block. A space is installed, a first mounting block is slidably installed in the first buffer space, and a first spring is connected between the first mounting block and the inner wall of the first buffer space. An intermediate rod is fixedly installed on the rear end surface of the first mounting block, a transmission plate is fixedly installed on the rear end of the intermediate rod, and a connecting rod is vertically symmetrical on the rear end surface of the transmission plate. The claim is characterized in that a holding plate is fixedly installed at the rear end of the connecting rod, and the holding plate abuts on the front end surface of the outer wall material to hold the outer wall material. The inspection and measurement equipment for cold resistance of building materials according to 1. The vibration mechanism includes a second buffer space installed in the rear wall of the inspection and measurement space, and a second mounting block is slidably installed in the second buffer space, and the second mounting block and the second mounting block. A second spring is connected to the inner wall of the second buffer space, a motor is fixedly installed on the front end surface of the second mounting block, and a power shaft is movably connected to the front side of the motor. The building material according to claim 7, wherein an eccentric ring is fixedly installed on the power shaft, and the front end surface of the power shaft and the rear end surface of the support plate are fixedly connected. Cold resistance inspection and measurement equipment. The inspection and measurement equipment for cold resistance of building materials according to claim 1, wherein a hygrometer and a thermometer are fixedly installed on the right wall of the inspection and measurement space.

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