CN116106127A

CN116106127A - Concrete strength monitoring equipment for concrete pouring and detection method thereof

Info

Publication number: CN116106127A
Application number: CN202111327901.8A
Authority: CN
Inventors: 刘顽强; 钟定龙; 周明珠; 罗江耀
Original assignee: Huaguanda Engineering Co ltd
Current assignee: Huaguanda Engineering Co ltd
Priority date: 2021-11-10
Filing date: 2021-11-10
Publication date: 2023-05-12

Abstract

The invention discloses concrete strength monitoring equipment for concrete pouring, which comprises a base, wherein a base surface of the base is fixedly connected with a controller, two vertical plates, a first supporting table and a second supporting table which are symmetrically arranged, the top of each vertical plate is horizontally and fixedly connected with a T-shaped sliding rail, a horizontal position adjusting mechanism is arranged near the top of each vertical plate, a base surface of each T-shaped sliding rail is fixedly connected with a first hydraulic cylinder, a strip-shaped hole is formed in the base surface, a movable block is slidably connected to the outer wall of each base surface in a penetrating manner, the telescopic end of each first hydraulic cylinder vertically and downwards passes through the bottom of each T-shaped sliding rail, the bottom of each telescopic end is fixedly connected with a pressing plate, the base surface of each movable block is fixedly connected with a second hydraulic cylinder, the telescopic end of each second hydraulic cylinder vertically and downwards passes through the strip-shaped hole, and the bottom of each telescopic end is provided with a connector. The invention solves the problems that the monitoring process of the compressive strength and the flexural strength of concrete for concrete pouring is complicated and inconvenient and the detection is inaccurate.

Description

Concrete strength monitoring equipment for concrete pouring and detection method thereof

Technical Field

The invention relates to the technical field of concrete, in particular to concrete strength monitoring equipment for concrete pouring and a detection method thereof.

Background

In the prior art, the concrete strength monitoring equipment for concrete pouring and the detection method thereof are provided, because the concrete strength monitoring process for concrete pouring is complicated and inconvenient and the detection is inaccurate.

Disclosure of Invention

The invention aims to solve the problems that the monitoring process of the compressive strength and the flexural strength of concrete for concrete pouring is complicated and inconvenient and the detection is inaccurate.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a concrete strength monitoring equipment for concrete placement, includes the base, the base surface of base is fixedly connected with controller, two risers that the symmetry set up, first brace table and second brace table respectively, the top level fixedly connected with T type slide rail of riser to and be close to the top install horizontal position adjustment mechanism, the base surface fixedly connected with first pneumatic cylinder of T type slide rail to and the base surface has seted up the bar hole, and the outer wall slip cross-under has movable block, the flexible end of first pneumatic cylinder vertically moves down and passes the bottom of T type slide rail, and the bottom fixedly connected with clamp plate of flexible end, the base surface fixedly connected with second pneumatic cylinder of movable block, the flexible end of second pneumatic cylinder vertically moves down and passes the bar hole, and the connector is installed to the bottom of flexible end;

the controller is provided with a display, a keyboard and a central processing unit for comprehensively processing data, wherein the central processing unit is connected with a power module for providing electric energy, and is also connected with a memory for storing data.

Preferably, the two pressing plates are respectively located above the first supporting table and the second supporting table.

Preferably, the counter bore is offered to the connector basal plane, and the bottom fixed mounting of counter bore has pressure sensor, the bottom of the flexible end of second pneumatic cylinder is T type setting, and T to the inner wall of end and counter bore for sliding connection, and bottom and pressure sensor, and T type end and counter bore port department's inner wall fender connect, pressure sensor is connected with central processing unit for gather pressure that pressure sensor received.

Preferably, the bottom of the connector is provided with a threaded hole for installing and detecting the pressure head.

Preferably, the horizontal position adjusting mechanism comprises a fixed plate fixedly arranged on the side wall of the vertical plate, a screw rod is rotatably connected to the side wall of the fixed plate in a penetrating way, a motor fixedly arranged on the side wall of the fixed plate is connected to one end of the screw rod in a shaft way, a driving block fixedly connected with the side wall of the movable block is connected to the screw thread of the outer wall in a penetrating way, and the motor is connected with the central processing unit and used for controlling the operation of the motor.

Preferably, the central processing unit is connected with the display and the keyboard respectively.

Preferably, the central processing unit is connected with the first hydraulic cylinder and the second hydraulic cylinder respectively and is used for controlling the operation of the first hydraulic cylinder and the second hydraulic cylinder respectively.

The detection method of the concrete strength monitoring equipment for concrete pouring comprises the following steps:

placing a concrete sample on a first supporting table and a second supporting table, and controlling the first hydraulic cylinder to run through a controller so that a pressing plate descends to compress the concrete sample;

step two, controlling the operation of a motor through a controller, enabling a lead screw to drive a display to move, enabling a movable block to slide on a T-shaped sliding rail, and enabling a connector to move to the position above a first supporting table;

and thirdly, installing a detection pressure head at the bottom of the connector, driving the detection pressure head to press the concrete through a second hydraulic cylinder, sensing pressure by a pressure sensor, transmitting a pressure value to a central processing unit, and displaying detection data through a keyboard by the central processing unit, thereby obtaining the compressive strength of the concrete.

Preferably, in the second step, if the control connector runs to the upper part of the gap between the first supporting table and the second supporting table, the pressure sensor detects that the pressure head presses down the concrete, and the pressure sensed by the pressure sensor can detect the flexural strength of the concrete at the position.

Compared with the prior art, the invention has the beneficial effects that: placing concrete samples on the first supporting table concrete and the second supporting table concrete, and controlling the first hydraulic cylinder concrete to run through the controller concrete so that the pressing plate concrete downwards compresses the concrete samples; the motor concrete is controlled to run through the controller concrete, so that the screw rod concrete drives the display concrete to move, the movable block concrete slides on the T-shaped slide rail concrete, and the connector concrete moves to the position above the first support table concrete; the bottom of the connector concrete is provided with a detection pressure head, the detection pressure head is driven by the second hydraulic cylinder concrete to press down the concrete, so that the pressure sensor concrete senses the pressure and transmits the pressure value to the central processing unit, and the central processing unit displays the detection data through the keyboard concrete, so that the compressive strength of the concrete is obtained; if the connector concrete is controlled to run to the upper part of the gap between the first supporting table concrete and the second supporting table concrete, the pressure head is detected to press down the concrete, and the flexural strength of the concrete at the position can be detected through the pressure sensed by the pressure sensor concrete.

Drawings

The invention is described in further detail below with reference to the attached drawings and detailed description:

FIG. 1 is a schematic overall structure of the present invention;

FIG. 2 is a schematic structural view of a connector according to the present invention;

fig. 3 is a schematic diagram of a controller control system according to the present invention.

In the figure: the device comprises a 1-base, a 2-controller, a 3-vertical plate, a 4-first supporting table, a 5-second supporting table, a 6-T-shaped sliding rail, a 7-horizontal position adjusting mechanism, an 8-first hydraulic cylinder, a 9-bar-shaped hole, a 10-movable block, an 11-pressing plate, a 12-second hydraulic cylinder, a 13-connector, a 14-pressure sensor, a 15-threaded hole, a 16-fixed plate, a 17-lead screw, an 18-motor, a 19-display and a 20-keyboard.

Detailed Description

Further advantages and effects of the present invention will become apparent to those skilled in the art from the disclosure of the present invention, which is described by the following specific examples.

Please refer to fig. 1 to 3. It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the invention to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the invention, are not intended to be critical to the essential characteristics of the invention, but are intended to fall within the spirit and scope of the invention. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the invention, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the invention may be practiced.

The invention provides a technical scheme that: the utility model provides a concrete strength monitoring equipment for concrete placement, includes base 1, the base surface of base 1 is fixedly connected with controller 2 respectively, two riser 3, first brace table 4 and the second brace table 5 of symmetry setting, the top horizontal fixedly connected with T type slide rail 6 of riser 3 to and be close to the top install horizontal position adjustment mechanism 7, the base surface fixedly connected with first pneumatic cylinder 8 of T type slide rail 6, and the base surface has offered bar hole 9, and outer wall slip cross-under has movable block 10, the flexible end of first pneumatic cylinder 8 vertically moves down the bottom of passing T type slide rail 6, and the bottom fixedly connected with clamp plate 11 of flexible end, the base surface fixedly connected with second pneumatic cylinder 12 of movable block 10, the flexible end of second pneumatic cylinder 12 vertically moves down and passes bar hole 9, and connector 13 is installed to the bottom of flexible end;

the controller 2 is provided with a display 20 and a keyboard 21, and a central processing unit for comprehensively processing data is arranged in the controller, the central processing unit is connected with a power supply module for supplying electric energy, and the central processing unit is also connected with a memory for storing data.

The two pressing plates 11 are respectively located above the first supporting table 4 and the second supporting table 5.

The base surface of the connector 13 is provided with a counter bore, the bottom of the counter bore is fixedly provided with a pressure sensor 14, the bottom of the telescopic end of the second hydraulic cylinder 12 is in a T-shaped structure, the T-shaped end is in sliding connection with the inner wall of the counter bore, the bottom of the second hydraulic cylinder is in blocking connection with the pressure sensor 14, the T-shaped end is in blocking connection with the inner wall of the counter bore port, and the pressure sensor 14 is connected with a central processing unit and used for collecting the pressure born by the pressure sensor 14.

Threaded holes 15 are formed in the bottoms of the connectors 13 and are used for installing and detecting pressure heads.

The horizontal position adjusting mechanism 7 comprises a fixed plate 16 fixedly arranged on the side wall of the vertical plate 3, a screw rod 17 is rotatably connected to the side wall of the fixed plate 16 in a penetrating manner, a motor 18 fixedly arranged on the side wall of the fixed plate 16 is connected to one end of the screw rod 17 in a shaft manner, a driving block 19 fixedly connected with the side wall of the movable block 10 is connected to the outer wall in a threaded manner, and the motor 18 is connected with the central processing unit and used for controlling the operation of the motor 18.

The central processor is connected to a display 20 and a keyboard 21, respectively.

The central processing unit is respectively connected with the first hydraulic cylinder 8 and the second hydraulic cylinder 12 and is used for respectively controlling the operation of the first hydraulic cylinder 8 and the second hydraulic cylinder 12.

firstly, placing concrete samples on a first supporting table 4 and a second supporting table 5, and controlling a first hydraulic cylinder 8 to run through a controller 2 so that a pressing plate 11 descends to compress the concrete samples;

step two, controlling the operation of a motor 18 through the controller 2, enabling a lead screw 17 to drive a display 19 to move, enabling a movable block 10 to slide on a T-shaped sliding rail 6, and enabling a connector 13 to move above a first supporting table 4;

and thirdly, installing a detection pressure head at the bottom of the connector 13, driving the detection pressure head to press the concrete through the second hydraulic cylinder 12, sensing the pressure by the pressure sensor 14, transmitting the pressure value to the central processing unit, and displaying the detection data through the keyboard 20 by the central processing unit, thereby obtaining the compressive strength of the concrete.

In the second step, if the control connector 13 is moved to the upper part of the gap between the first support table 4 and the second support table 5, the pressure sensor 14 senses the pressure of the concrete to detect the flexural strength of the concrete.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims

1. Concrete strength monitoring equipment for concrete placement, including base (1), its characterized in that: the base surface of the base (1) is fixedly connected with a controller (2), two vertical plates (3) which are symmetrically arranged, a first supporting table (4) and a second supporting table (5) respectively, the top of the vertical plates (3) is horizontally and fixedly connected with a T-shaped sliding rail (6), a horizontal position adjusting mechanism (7) is installed close to the top of the vertical plates, the base surface of the T-shaped sliding rail (6) is fixedly connected with a first hydraulic cylinder (8), a strip-shaped hole (9) is formed in the base surface, a movable block (10) is slidably connected to the outer wall of the base surface in a penetrating mode, the telescopic end of the first hydraulic cylinder (8) vertically and downwards penetrates through the bottom of the T-shaped sliding rail (6), the bottom of the telescopic end is fixedly connected with a pressing plate (11), the base surface of the movable block (10) is fixedly connected with a second hydraulic cylinder (12), the telescopic end of the second hydraulic cylinder (12) vertically and downwards penetrates through the strip-shaped hole (9), and the bottom of the telescopic end is provided with a connector (13);

the controller (2) is provided with a display (20) and a keyboard (21), and a central processing unit for comprehensively processing data is arranged in the controller, the central processing unit is connected with a power module for providing electric energy, and the central processing unit is also connected with a memory for storing data.

2. A concrete strength monitoring apparatus for concrete casting according to claim 1, wherein: the two pressing plates (11) are respectively positioned above the first supporting table (4) and the second supporting table (5).

3. A concrete strength monitoring apparatus for concrete casting according to claim 1, wherein: the base surface of the connector (13) is provided with a counter bore, the bottom of the counter bore is fixedly provided with a pressure sensor (14), the bottom of the telescopic end of the second hydraulic cylinder (12) is in T-shaped arrangement, the T-shaped end is in sliding connection with the inner wall of the counter bore, the bottom of the second hydraulic cylinder is in contact with the pressure sensor (14), the T-shaped end is blocked with the inner wall of the counter bore port, and the pressure sensor (14) is connected with a central processing unit and used for collecting pressure received by the pressure sensor (14).

4. A concrete strength monitoring apparatus for concrete casting according to claim 1, wherein: threaded holes (15) are formed in the bottoms of the connectors (13) and are used for installing and detecting pressure heads.

5. A concrete strength monitoring apparatus for concrete casting according to claim 1, wherein: the horizontal position adjusting mechanism (7) comprises a fixed plate (16) fixedly arranged on the side wall of the vertical plate (3), a screw rod (17) is connected to the side wall of the fixed plate (16) in a rotating and penetrating mode, a motor (18) fixedly arranged on the side wall of the fixed plate (16) is connected to one end of the screw rod (17) in a shaft mode, a driving block (19) fixedly connected with the side wall of the movable block (10) is connected to the outer wall in a threaded mode, and the motor (18) is connected with the central processing unit and used for controlling operation of the motor (18).

6. A concrete strength monitoring apparatus for concrete casting according to claim 1, wherein: the central processing unit is respectively connected with the display (20) and the keyboard (21).

7. A concrete strength monitoring apparatus for concrete casting according to claim 1, wherein: the central processing unit is respectively connected with the first hydraulic cylinder (8) and the second hydraulic cylinder (12) and is used for respectively controlling the operation of the first hydraulic cylinder (8) and the second hydraulic cylinder (12).

8. The detection method of the concrete strength monitoring equipment for concrete pouring is characterized by comprising the following steps of:

firstly, placing a concrete sample on a first supporting table (4) and a second supporting table (5), and controlling a first hydraulic cylinder (8) to operate through a controller (2) so that a pressing plate (11) downwards compresses the concrete sample;

step two, controlling a motor (18) to run through a controller (2), enabling a lead screw (17) to drive a display (19) to move, enabling a movable block (10) to slide on a T-shaped sliding rail (6), and enabling a connector (13) to move to the position above a first supporting table (4);

and thirdly, installing a detection pressure head at the bottom of the connector (13), driving the detection pressure head to press down concrete through a second hydraulic cylinder (12), sensing the pressure by a pressure sensor (14), transmitting the pressure value to a central processing unit, and displaying detection data by the central processing unit through a keyboard (20), thereby obtaining the compressive strength of the concrete.

9. The method according to claim 8, wherein in the second step, if the control joint (13) is moved above the gap between the first support table (4) and the second support table (5), the pressure sensor (14) senses the pressure of the concrete to detect the breaking strength of the concrete.