CN218297962U

CN218297962U - Building concrete anticorrosion testing arrangement

Info

Publication number: CN218297962U
Application number: CN202221871553.0U
Authority: CN
Inventors: 赵俊雅
Original assignee: Beijing Machinery Construction Group Co ltd
Current assignee: Beijing Machinery Construction Group Co ltd
Priority date: 2022-07-20
Filing date: 2022-07-20
Publication date: 2023-01-13
Anticipated expiration: 2032-07-20

Abstract

The utility model discloses a building concrete anticorrosion testing arrangement, include: the test box is provided with a multifunctional corrosion test structure; the multifunctional corrosion test structure comprises: the device comprises a test cavity, a pair of fixed seats, a pair of strong hot air test components, a rotary seat, a first belt pulley, a rotary table, a fixed clamp, a driving belt, a pair of clamping wheels, a motor box, a rotary driving motor, a second belt pulley, an exhaust speed reduction dust blocking component and a pair of sealing box doors; the utility model relates to a concrete test equipment technical field, present case beneficial effect does: the problem of current concrete test adopt the fan to carry out the long-time corrosion resisting strength who blows and be used for testing the concrete is solved, because the fan wind speed is more weak, efficiency of software testing is lower, and the effect is relatively poor, and blows and can take a large amount of dusts and grit after causing the corruption, directly blows off can the polluted environment in the air.

Description

Building concrete anticorrosion testing arrangement

Technical Field

The utility model relates to a concrete test equipment technical field specifically is a building concrete anticorrosion testing arrangement.

Background

Building concrete is a general name of engineering composite materials formed by cementing aggregates into a whole by cementing materials, and the term concrete generally refers to that cement is used as the cementing materials, and sand and stone are used as the aggregates; the cement concrete is mixed with water according to a certain proportion, and is obtained by stirring, so that the cement concrete is widely applied to building and civil engineering, the concrete is used as a material which is most used for buildings, the corrosion resistance of the concrete is an extremely important index, most of the existing concrete tests adopt a fan to blow for a long time for testing the corrosion resistance strength of the concrete, the fan is weak in wind speed, the testing efficiency is low, the effect is poor, and a large amount of dust and sand stones can be brought up after the wind blows cause corrosion, and the environment can be polluted by directly blowing the dust and sand stones away in the air.

Disclosure of Invention

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a building concrete anticorrosion testing device, comprising: the test box is provided with a multifunctional corrosion test structure;

the multifunctional corrosion test structure comprises: the device comprises a test cavity, a pair of fixed seats, a pair of strong hot air test components, a rotary seat, a first belt pulley, a rotary table, a fixed clamp, a driving belt, a pair of clamping wheels, a motor box, a rotary driving motor, a second belt pulley, an exhaust speed reduction dust blocking component and a pair of sealing box doors;

the testing chamber is arranged at the inner position of the testing box, the pair of fixing seats are arranged at the positions of two sides of the testing box, the pair of powerful hot air testing components are arranged on the pair of fixing seats, the rotating seat is arranged on the lower wall surface of the testing chamber, the first belt pulley is arranged on the rotating seat, the rotating seat is arranged at the position above the rotating seat, the fixing clamp is arranged at the middle position of the upper wall surface of the rotating seat, the pair of clamping wheels is arranged at the rear position of the rotating seat, the driving belt is sleeved on the first belt pulley, the motor box is arranged at the lower position of the rear wall surface of the testing box, the rotary driving motor is arranged in the motor box, the second belt pulley is arranged at the output end of the rotary driving motor, the driving belt is embedded in the middle of the pair of clamping wheels and sleeved on the second belt pulley, the exhaust speed reduction dust blocking component is arranged on the testing box, and the pair of box doors are arranged at the position of a front opening of the testing box in a sealing mode.

Preferably, a pair of sealed box doors are mounted to the test box by hinges.

Preferably, the rotary driving motor is provided with a motor frame.

Preferably, one of the pair of strong hot air test assemblies comprises: the device comprises a hot air box, an air inlet hopper, two pairs of combined fixing frames, a high-speed fan, a wind power acceleration guide frame, a heating pipe fixing frame, an electric heating pipe and a heating controller;

the hot-blast case is installed on the fixing base, and the fill that admits air is installed on hot-blast case wall air inlet, and two pairs of combination mounts are installed in hot-blast case outside position, and high-speed fan installs on two pairs of combination mounts, and wind-force guide frame is installed in two pairs of combination mount outside positions with higher speed, and the heating pipe mount is installed in two pairs of combination mount inboard positions, and electric heating pipe installs on the heating pipe mount, and the heating controller is installed on hot-blast case wall, and electric heating pipe both ends are connected on the heating controller.

Preferably, the two pairs of combined fixing frames are installed through fixing bolts.

Preferably, the exhaust gas speed-reducing dust-blocking assembly comprises: the device comprises an exhaust hopper, a gas pipe, a deceleration air box, a pair of deceleration dustproof baffles and a dustproof net;

the air exhaust hopper is installed on the air exhaust port in the upper wall surface of the test box, one end of the air pipe is installed on the air exhaust hopper, the deceleration air box is installed at the top position of the rear wall surface of the test box, the other end of the air pipe is installed on the deceleration air box, the pair of deceleration dustproof baffles is obliquely installed at the inner position of the deceleration air box, and the dustproof net is installed on the air exhaust port of the deceleration air box.

Advantageous effects

The utility model provides a building concrete anticorrosion testing arrangement possesses following beneficial effect: this scheme has used multi-functional corrosion test structure, cooperate the heating structure when the wind speed through the reinforcing test, the temperature environment when effectively simulating daily use, and increased corrosion test's speed, the dustproof construction of slowdown has been increased simultaneously, can carry out the slowdown and block dust grit etc. to exhaust air, prevent the polluted environment, the corrosion resistance who adopts the fan to carry out the long-time wind-blowing to be used for testing the concrete is mostly solved to current concrete test, because the fan wind speed is less strong, efficiency of software testing is lower, the effect is relatively poor, and wind blows and can bring a large amount of dust and grit after causing the corruption, directly blow the problem that scatters and can the polluted environment in the air.

Drawings

Fig. 1 is the utility model relates to a building concrete anticorrosion testing arrangement's front view sectional structure schematic diagram.

Fig. 2 is the utility model relates to a building concrete anticorrosion testing arrangement's main structure sketch map of looking.

Fig. 3 is the utility model relates to a building concrete anticorrosion testing arrangement's test box looks sideways at sectional structure schematic diagram.

Fig. 4 is the utility model relates to a building concrete anticorrosion testing arrangement's electric heating pipe looks sideways at the structural representation.

In the figure: 1-a test box; 2-a test chamber; 3-fixing the base; 4-a rotating seat; 5-a first pulley; 6-rotating table; 7-fixing the clamp; 8-a drive belt; 9-a clamping wheel; 10-a motor box; 11-a rotary drive motor; 12-a second pulley; 13-sealing the box door; 14-a hinge; 15-a motor frame; 16-a hot air box; 17-an air inlet hopper; 18-a combined fixing frame; 19-a high speed fan; 20-a wind accelerating guide frame; 21-heating pipe fixing frame; 22-an electric heating tube; 23-a heating controller; 24-a fixing bolt; 25-an exhaust hopper; 26-a gas transmission pipe; 27-a deceleration windbox; 28-a speed-reducing dustproof baffle; 29-dust screen.

Detailed Description

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b): please refer to fig. 1-4; the main components of the scheme are as follows: the corrosion testing device comprises a testing box 1, wherein a multifunctional corrosion testing structure is arranged on the testing box 1;

the multifunctional corrosion test structure comprises: the device comprises a test cavity 2, a pair of fixed seats 3, a pair of strong hot air test components, a rotary seat 4, a first belt pulley 5, a rotary table 6, a fixed clamp 7, a driving belt 8, a pair of clamping wheels 9, a motor box 10, a rotary driving motor 11, a second belt pulley 12, an exhaust speed-reducing dust-blocking component and a pair of sealing box doors 13;

the testing chamber 2 is arranged at the inner position of the testing chamber 1, the pair of fixing seats 3 are arranged at the positions of two sides of the testing chamber 1, the pair of powerful hot air testing components are arranged on the pair of fixing seats 3, the rotary seat 4 is arranged on the lower wall surface of the testing chamber 2, the first belt pulley 5 is arranged on the rotary seat 4, the rotary seat 6 is arranged at the position above the rotary seat 4, the fixing clamp 7 is arranged at the middle position of the upper wall surface of the rotary seat 6, the pair of clamping wheels 9 is arranged at the rear position of the rotary seat 6, the driving belt 8 is sleeved on the first belt pulley 5, the motor box 10 is arranged at the lower position of the rear wall surface of the testing chamber 1, the rotary driving motor 11 is arranged inside the motor box 10, the second belt pulley 12 is arranged at the output end of the rotary driving motor 11, the driving belt 8 is embedded in the middle of the pair of clamping wheels 9 and sleeved on the second belt pulley 12, the exhaust speed-reducing dust-blocking component is arranged on the testing chamber 1, and the pair of sealing chamber doors 13 is arranged at the front opening position of the testing chamber 1.

It should be noted that, when the multifunctional corrosion test structure is used, a concrete sample block to be tested is placed on the fixing clamp 7 on the rotating platform 6 and is fixed, the sealing box door 13 is closed, the device is started by operating the controller matched with the device, a pair of strong hot air test components installed on the fixed base 3 is started to perform hot air overlooking test on the concrete, meanwhile, the rotary driving motor 11 installed in the motor box 10 is started to start to rotate, the rotary driving motor 11 drives the second belt pulley 12 installed on the output end of the rotary driving motor to rotate, the second belt pulley 12 rotates to drive the first belt pulley 5 to rotate through the driving belt 8, the first belt pulley 5 drives the rotating platform 4 to rotate so as to drive the rotating platform 6 installed above to rotate, so that the omnibearing corrosion test on the concrete is realized, the gas is exhausted through the exhaust speed reduction dust blocking component during the test, the gas is reduced in speed and blocked at the same time of exhausting, the flow rate of the exhausted gas is too fast, and the dust and the sand are prevented from floating.

In the implementation, further, a pair of sealing box doors 13 are mounted on the testing box 1 through hinges 14.

In the implementation process, further, a motor frame 15 is installed on the rotary driving motor 11.

In the specific implementation process, further, one of the pair of strong hot air test assemblies comprises: the device comprises a hot air box 16, an air inlet hopper 17, two pairs of combined fixing frames 18, a high-speed fan 19, a wind power accelerating guide frame 20, a heating pipe fixing frame 21, an electric heating pipe 22 and a heating controller 23;

the hot-blast case 16 is installed on the fixing base 3, the air inlet hopper 17 is installed on an air inlet on the upper wall surface of the hot-blast case 16, two pairs of combined fixing frames 18 are installed at the inner side and the outer side of the hot-blast case 16, the high-speed fan 19 is installed on the two pairs of combined fixing frames 18, the wind accelerating guide frame 20 is installed at the outer side of the two pairs of combined fixing frames 18, the heating pipe fixing frame 21 is installed at the inner side of the two pairs of combined fixing frames 18, the electric heating pipe 22 is installed on the heating pipe fixing frame 21, the heating controller 23 is installed on the upper wall surface of the hot-blast case 16, and two ends of the electric heating pipe 22 are connected to the heating controller 23.

It should be noted that, when the powerful hot air test assembly is used, the high-speed fans 19 installed on the two pairs of combined fixing frames 18 are started to rotate, the high-speed fans 19 are started to blow air into the test cavity 2, an air pressure difference is formed between the inside and the outside of the hot air box 16, outside air enters the hot air box 16 through the air inlet hoppers 17, meanwhile, the guide and the enhancement of the air speed are performed through the arc-shaped wind accelerating guide frame 20, the size of the wind power is increased, the heating controller 23 installed on the hot air box 16 is started to control the electric heating pipes 22 connected with the hot air box to start while air is blown, the electric heating pipes 22 installed on the heating pipe fixing frame 21 are started to heat, the high-temperature hot air generated by the high-speed fans 19 is blown into the test cavity 2, and the concrete is subjected to the corrosion test through the high-speed hot air.

In the specific implementation process, furthermore, the two pairs of combined fixing frames 18 are installed through the fixing bolts 24.

In the specific implementation process, further, the exhaust speed-reducing dust-blocking component comprises: an exhaust hopper 25, an air pipe 26, a speed-reducing air box 27, a pair of speed-reducing dustproof baffles 28 and a dustproof net 29;

the exhaust funnel 25 is installed on the exhaust port on the upper wall surface of the test box 1, one end of the air pipe 26 is installed on the exhaust funnel 25, the deceleration air box 27 is installed at the top position of the rear wall surface of the test box 1, the other end of the air pipe 26 is installed on the deceleration air box 27, the pair of deceleration dustproof baffles 28 is obliquely installed at the inner position of the deceleration air box 27, and the dustproof net 29 is installed on the exhaust port of the deceleration air box 27.

When the exhaust speed-reducing dust-blocking assembly is used, wind is exhausted through the exhaust hopper 25, is exhausted through the gas pipe 26 and is conveyed into the speed-reducing wind box 27, high-speed wind is directly blown to the pair of speed-reducing dustproof baffles 28 which are obliquely arranged, so that the wind is prevented from directly bringing out corroded dust and gravel while reducing the speed, and the test environment is protected.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A building concrete anticorrosion testing device, comprising: the test box is characterized in that a multifunctional corrosion test structure is arranged on the test box; the multifunctional corrosion test structure comprises: the device comprises a test cavity, a pair of fixed seats, a pair of strong hot air test components, a rotary seat, a first belt pulley, a rotary table, a fixed clamp, a driving belt, a pair of clamping wheels, a motor box, a rotary driving motor, a second belt pulley, an exhaust speed reduction dust blocking component and a pair of sealing box doors; the testing chamber is arranged at the inner position of the testing box, the pair of fixing seats are arranged at the positions of two sides of the testing box, the pair of powerful hot air testing components are arranged on the pair of fixing seats, the rotating seat is arranged on the lower wall surface of the testing chamber, the first belt pulley is arranged on the rotating seat, the rotating seat is arranged at the position above the rotating seat, the fixing clamp is arranged at the middle position of the upper wall surface of the rotating seat, the pair of clamping wheels is arranged at the rear position of the rotating seat, the driving belt is sleeved on the first belt pulley, the motor box is arranged at the lower position of the rear wall surface of the testing box, the rotary driving motor is arranged in the motor box, the second belt pulley is arranged at the output end of the rotary driving motor, the driving belt is embedded in the middle of the pair of clamping wheels and sleeved on the second belt pulley, the exhaust speed reduction dust blocking component is arranged on the testing box, and the pair of box doors are arranged at the position of a front opening of the testing box in a sealing mode.

2. The apparatus for testing corrosion protection of building concrete according to claim 1, wherein a pair of sealer doors are mounted on the testing box by hinges.

3. The building concrete corrosion prevention testing device according to claim 1, wherein a motor frame is mounted on the rotary driving motor.

4. The apparatus for testing corrosion resistance of building concrete according to claim 1, wherein one of the pair of strong hot air test modules comprises: the device comprises a hot air box, an air inlet hopper, two pairs of combined fixing frames, a high-speed fan, a wind power acceleration guide frame, a heating pipe fixing frame, an electric heating pipe and a heating controller; the hot-blast case is installed on the fixing base, and the fill that admits air is installed on hot-blast case wall air inlet, and two pairs of combination mounts are installed in hot-blast case outside position, and high-speed fan installs on two pairs of combination mounts, and wind-force guide bracket is installed in two pairs of combination mount outside positions with higher speed, and the heating pipe mount is installed in two pairs of combination mount inboard positions, and electric heating pipe installs on the heating pipe mount, and heating controller installs on hot-blast case wall, and electric heating pipe both ends are connected on heating controller.

5. The building concrete corrosion prevention testing device according to claim 4, wherein the two pairs of combined fixing frames are installed through fixing bolts.

6. The apparatus for testing corrosion protection of building concrete according to claim 1, wherein the air-discharging, speed-reducing and dust-blocking assembly comprises: the device comprises an exhaust hopper, a gas pipe, a deceleration air box, a pair of deceleration dustproof baffles and a dustproof net; the exhaust funnel is installed on the exhaust port of the upper wall surface of the test box, one end of the gas pipe is installed on the exhaust funnel, the deceleration air box is installed at the top position of the rear wall surface of the test box, the other end of the gas pipe is installed on the deceleration air box, the pair of deceleration dustproof baffles are obliquely installed at the inner position of the deceleration air box, and the dustproof net is installed on the exhaust port of the deceleration air box.