CN220772882U

CN220772882U - Building concrete anticorrosion testing arrangement

Info

Publication number: CN220772882U
Application number: CN202322396748.5U
Authority: CN
Inventors: 王水勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-09-04
Filing date: 2023-09-04
Publication date: 2024-04-12
Anticipated expiration: 2033-09-04

Abstract

The utility model discloses a building concrete anti-corrosion testing device, which comprises: the device comprises a base and a test box, wherein the test box is fixed at the top of the base, an adjusting mechanism is connected at the top of the test box, a clamping mechanism is connected at the bottom of the adjusting mechanism, a water inlet is connected at one side of the test box, a water outlet is connected at the other side of the test box, the building concrete anti-corrosion testing device is characterized in that a corrosion-resistant rope can drive a bottom adjusting plate to move upwards when sliding upwards, the adjusting plate can move the concrete clamped at the bottom of the adjusting plate out of the test box when moving upwards to a proper position, the adjusting mechanism can be used for placing the concrete into the test box at the moment, then a valve is opened to enable liquid to be tested to flow into the test box through the water inlet, the internal parts of the clamping mechanism are made of corrosion-resistant materials, corrosion by liquid can be avoided, the corrosion-resistant degree of the concrete can be tested by concrete soaking, and the concrete can be clamped and limited conveniently.

Description

Building concrete anticorrosion testing arrangement

Technical Field

The utility model relates to the technical field of building concrete, in particular to a corrosion-proof testing device for building concrete.

Background

Building concrete is a common building material, which is formed by mixing cement, sand, aggregate, water and other components. The device has very high firmness and durability, is commonly used in the structure and foundation engineering of a building, the corrosion resistance of the building concrete is critical to the durability, and in order to evaluate the corrosion resistance of the concrete, a building concrete corrosion resistance testing device can be used, which is commonly used for simulating the exposure condition of the concrete in a real environment so as to evaluate the corrosion resistance and the durability of the concrete, and the conventional building concrete corrosion resistance testing device has certain defects in use, such as;

the corrosion resistance testing device for the building concrete is used for simulating corrosion media in a concrete exposure environment, and is commonly used for including salt water, acid solution and the like, the selection and the proportioning of the corrosion media are required to be carried out according to specific conditions so as to simulate an expected corrosion environment, corrosion rate data of a concrete test piece in the specific corrosion environment can be obtained through the corrosion resistance testing device for the concrete, thereby evaluating the corrosion resistance of the concrete, providing a basis for improving design and material selection, being helpful for ensuring the durability and the feasibility of long-term maintenance of the building concrete.

Disclosure of Invention

The utility model provides the following technical scheme: the utility model aims to provide a building concrete corrosion prevention testing device, which aims to solve the problems that the building concrete corrosion prevention testing device in the current market provided by the background technology has a plurality of defects in use, the tested concrete is inconvenient to take and clamp, and the concrete is subjected to water flow deflection after flowing in an inlet and an outlet.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an apparatus for corrosion protection testing of construction concrete, comprising: a base and a test box;

the test box is fixed on the top of the base, the adjusting mechanism is connected to the top of the test box, the clamping mechanism is connected to the bottom of the adjusting mechanism, the water inlet is connected to one side of the test box, and the water outlet is connected to the other side of the test box.

Preferably, the adjusting mechanism comprises a connecting frame, a rotating wheel, a first motor, a through groove, a corrosion-resistant rope, an adjusting plate and a connecting ring;

and a connecting frame is fixed at the top of the test box.

Preferably, a rotating wheel is fixed at the top of the connecting frame, a first motor is installed on the side face of the rotating wheel, and a through groove is formed in the surface of the connecting frame in a penetrating mode.

Preferably, the surface of the rotating wheel is wound with a corrosion-resistant rope, and the corrosion-resistant rope slides through the through groove.

Preferably, an adjusting plate is arranged at the bottom of the corrosion-resistant rope, a connecting ring is fixed at the top of the adjusting plate, and the connecting ring and the corrosion-resistant rope are wound and fixed.

Preferably, the clamping mechanism comprises an adjusting groove, a second motor, a sealing bearing, a bidirectional threaded rod, a sliding block, a connecting plate and an anti-slip pad;

the bottom of the adjusting plate is provided with an adjusting groove.

Preferably, the second motor is installed to the adjustment tank inner wall, the adjustment tank inner wall is connected with sealed bearing, run through between sealed bearing and the second motor and rotate and be connected with two-way threaded rod.

Preferably, the surface of the bidirectional threaded rod is connected with a sliding block in a threaded manner, the bottom of the sliding block is connected with a connecting plate, and the side surface of the connecting plate is connected with an anti-slip pad.

Compared with the prior art, the utility model has the beneficial effects that: this building concrete anticorrosion testing arrangement, corrosion resistant rope can drive bottom regulating plate upward movement when upwards sliding, when the regulating plate upwards moved suitable position, can remove out the test box inside with the concrete of regulating plate bottom centre gripping, can use adjustment mechanism to put into the test box inside this moment, then open the valve and flow into the test box inside with the liquid that needs to test through the water inlet, clamping mechanism internals are corrosion resistant material, can avoid corroding by the liquid, and the concrete soaks the anticorrosion degree that can test concrete, conveniently carries out the centre gripping spacing to the concrete.

1. When the tested concrete is required to be taken out of the test box, the first motor can be started, the rotating rod of the rotating wheel can be driven to rotate when the first motor works, the corrosion-resistant rope can be driven to wind by rotating the corrosion-resistant rope on the surface of the adjusting mechanism, the corrosion-resistant rope can slide upwards through the through groove when being wound, the bottom adjusting plate can be driven to move upwards when the corrosion-resistant rope slides upwards, and when the adjusting plate moves to a proper position upwards, the concrete clamped at the bottom of the adjusting plate can be moved out of the test box, so that the damage caused by high corrosion of liquid in the concrete can be directly fished;

2. before the concrete to be tested is placed in the test box, the concrete can be moved between the anti-slip pads, the second motor can be started at the moment, the second motor can be driven to rotate when in operation, the second motor can be driven to rotate, the second motor can be driven to slide in a threaded manner, the bottom connecting plate can be driven to move, the connecting plate can be driven to move to the side anti-slip pads to move to the side face of the concrete to clamp and fix, the concrete can be placed in the test box by using the adjusting mechanism at the moment, then the valve is opened to enable the liquid to be tested to flow into the test box through the water inlet, the internal parts of the clamping mechanism are made of corrosion-resistant materials, corrosion by the liquid can be avoided, the concrete can be soaked to test the corrosion resistance degree of the concrete, the test box is made of transparent materials, and clamping and limiting of the concrete is convenient.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 3 is a schematic top view of the present utility model;

fig. 4 is an enlarged schematic view of the structure of the portion a of the present utility model.

In the figure: 1. a base; 2. a test box; 3. an adjusting mechanism; 301. a connecting frame; 302. a rotating wheel; 303. a first motor; 304. a through groove; 305. a corrosion resistant rope; 306. an adjusting plate; 307. a connecting ring; 4. a clamping mechanism; 401. an adjustment tank; 402. a second motor; 403. sealing the bearing; 404. a two-way threaded rod; 405. a slide block; 406. a connecting plate; 407. an anti-slip pad; 5. a water inlet; 6. and a water outlet.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: an apparatus for corrosion protection testing of construction concrete, comprising: a base 1 and a test box 2;

the top of the base 1 is fixed with a test box 2, the top of the test box 2 is connected with an adjusting mechanism 3, the bottom of the adjusting mechanism 3 is connected with a clamping mechanism 4, one side of the test box 2 is connected with a water inlet 5, and the other side of the test box 2 is connected with a water outlet 6.

The adjusting mechanism 3 comprises a connecting frame 301, a rotating wheel 302, a first motor 303, a through groove 304, a corrosion-resistant rope 305, an adjusting plate 306 and a connecting ring 307;

a connecting frame 301 is fixed on the top of the test box 2, and when the tested concrete needs to be taken out of the test box 2, the first motor 303 can be started.

The rotating wheel 302 is fixed at the top of the connecting frame 301, a first motor 303 is arranged on the side face of the rotating wheel 302, a through groove 304 is formed in the surface of the connecting frame 301 in a penetrating mode, the rotating rod of the rotating wheel 302 can be driven to rotate when the first motor 303 works, and the corrosion-resistant rope 305 can be driven to rotate to wind the corrosion-resistant rope 305 on the surface of the adjusting mechanism 3.

The surface of the rotating wheel 302 is wound with the corrosion-resistant rope 305, the corrosion-resistant rope 305 slides through the through groove 304, the corrosion-resistant rope 305 can slide upwards through the through groove 304 when being wound, and the bottom adjusting plate 306 can be driven to move upwards when the corrosion-resistant rope 305 slides upwards.

The corrosion resistant rope 305 bottom is provided with regulating plate 306, and regulating plate 306 top is fixed with go-between 307, and go-between 307 and corrosion resistant rope 305 twines fixedly, and when regulating plate 306 upwards moved suitable position, can remove out the inside of test box 2 with the concrete of regulating plate 306 bottom centre gripping, avoid directly dragging for the inside liquid corrosiveness height of concrete and cause the injury.

The clamping mechanism 4 comprises an adjusting groove 401, a second motor 402, a sealing bearing 403, a bidirectional threaded rod 404, a sliding block 405, a connecting plate 406 and an anti-slip pad 407;

the adjusting plate 306 is provided with an adjusting groove 401 at the bottom, and before the concrete to be tested is placed in the test box 2, the concrete can be moved between the anti-slip pads 407, and the second motor 402 can be started at this time.

The second motor 402 is installed to adjustment tank 401 inner wall, and adjustment tank 401 inner wall is connected with sealed bearing 403, runs through between sealed bearing 403 and the second motor 402 and rotates and be connected with two-way threaded rod 404, and the during operation of second motor 402 can drive second motor 402 and rotate, and second motor 402 rotates and can drive surperficial second motor 402 and carry out the screw thread slip.

The surface threaded connection of bi-directional threaded rod 404 has slider 405, and slider 405 bottom is connected with connecting plate 406, and connecting plate 406 side is connected with slipmat 407, and second motor 402 screw thread slip can drive bottom connecting plate 406 and remove, and connecting plate 406 removes and can drive side slipmat 407 and remove the concrete side and carry out the centre gripping fixedly.

Working principle: when the building concrete corrosion resistance testing device is used, firstly, when the tested concrete needs to be taken out from the inside of the testing box 2, the first motor 303 can be started, the rotating rod of the rotating wheel 302 can be driven to rotate when the first motor 303 works, the corrosion resistance rope 305 can be driven to rotate, the corrosion resistance rope 305 on the surface of the adjusting mechanism 3 can be driven to wind, the corrosion resistance rope 305 can be driven to move upwards through the through groove 304 when being wound, the bottom adjusting plate 306 can be driven to move upwards when the corrosion resistance rope 305 slides upwards, when the adjusting plate 306 moves upwards to a proper position, the concrete clamped at the bottom of the adjusting plate 306 can be moved out of the inside of the testing box 2, when the tested concrete needs to be placed into the inside of the testing box 2, the concrete can be moved between the anti-skid pads 407, at the moment, the second motor 402 can be started, the second motor 402 during operation can drive the second motor 402 and rotate, the second motor 402 rotates and can drive surface second motor 402 and carry out the screw thread slip, the screw thread slip of second motor 402 can drive bottom connecting plate 406 and remove, connecting plate 406 removes and can drive side slipmat 407 and remove the concrete side and carry out the centre gripping fixedly, can use adjustment mechanism 3 to put into test box 2 inside this moment, then open the valve and flow into test box 2 inside with the liquid that needs the test through water inlet 5, fixture 4 internals are corrosion-resistant material, can avoid corroding by the liquid, the concrete soaks the anticorrosion degree that can test concrete, test box 2 is transparent material and is convenient for observe, the convenience carries out the centre gripping spacing to the concrete, the content that does not make detailed description in this description belongs to the prior art that the expert of the field knows.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims

1. An apparatus for corrosion protection testing of construction concrete, comprising: the device is characterized by comprising a base (1) and a test box (2);

the novel water heater is characterized in that the top of the base (1) is fixedly provided with a test box (2), the top of the test box (2) is connected with an adjusting mechanism (3), the bottom of the adjusting mechanism (3) is connected with a clamping mechanism (4), one side of the test box (2) is connected with a water inlet (5), and the other side of the test box (2) is connected with a water outlet (6).

2. The corrosion protection testing device for building concrete according to claim 1, wherein: the adjusting mechanism (3) comprises a connecting frame (301), a rotating wheel (302), a first motor (303), a through groove (304), a corrosion-resistant rope (305), an adjusting plate (306) and a connecting ring (307);

the top of the test box (2) is fixedly provided with a connecting frame (301).

3. The corrosion protection testing device for building concrete according to claim 2, wherein: the top of the connecting frame (301) is fixedly provided with a rotating wheel (302), a first motor (303) is arranged on the side face of the rotating wheel (302), and a through groove (304) is formed in the surface of the connecting frame (301) in a penetrating mode.

4. The corrosion protection testing device for building concrete according to claim 2, wherein: the surface of the rotating wheel (302) is wound with a corrosion-resistant rope (305), and the corrosion-resistant rope (305) slides through the through groove (304).

5. The corrosion protection testing device for building concrete according to claim 2, wherein: the corrosion-resistant rope (305) bottom is provided with regulating plate (306), regulating plate (306) top is fixed with go-between (307), go-between (307) and corrosion-resistant rope (305) twine fixedly.

6. The corrosion protection testing device for building concrete according to claim 2, wherein: the clamping mechanism (4) comprises an adjusting groove (401), a second motor (402), a sealing bearing (403), a bidirectional threaded rod (404), a sliding block (405), a connecting plate (406) and an anti-slip pad (407);

an adjusting groove (401) is formed in the bottom of the adjusting plate (306).

7. The corrosion protection testing device for building concrete according to claim 6, wherein: the second motor (402) is installed to adjustment tank (401) inner wall, adjustment tank (401) inner wall is connected with sealed bearing (403), run through between sealed bearing (403) and second motor (402) and rotate and be connected with two-way threaded rod (404).

8. The corrosion protection testing device for building concrete according to claim 6, wherein: the surface of the bidirectional threaded rod (404) is in threaded connection with a sliding block (405), the bottom of the sliding block (405) is connected with a connecting plate (406), and the side surface of the connecting plate (406) is connected with an anti-slip pad (407).