CN216309880U - Material monitoring devices that building engineering used - Google Patents

Abstract

The utility model discloses a material monitoring device for constructional engineering, which comprises a monitoring box, an operation panel and a bearing plate, wherein the operation panel is arranged on one side of the monitoring box, a display screen is arranged on the operation panel, a power switch is arranged below the operation panel, and a charging interface is arranged below the power switch. Has the advantages that: according to the utility model, the supporting plate can support the bearing plate by arranging the electric push rod and the supporting plate, then the height of the supporting plate is adjusted by the electric push rod, further the height of the bearing plate is adjusted, the detection requirements of different types of materials are met, the storage battery can be charged through the charging interface by arranging the charging interface, the power switch and the storage battery, then the power on/off of the storage battery is controlled by the power switch, so that the storage battery supplies power for the device, external electric power is not required, the use is convenient, and the practicability of the device is improved.

Description

Material monitoring devices that building engineering used

Technical Field

The utility model relates to the technical field of material monitoring devices, in particular to a material monitoring device for constructional engineering.

Background

The material detection is to analyze and measure the components of raw materials, perform nondestructive detection, perform environmental simulation test and the like, the material inspection project of the test is subject to the regulations of national, industrial and local construction departments, and a specified amount of samples are generally randomly extracted from different parts of a batch of materials.

The material monitoring devices that current building engineering used need carry out the sampling test to the material in the use, because detect material quantity and kind are more, and the interval between ultrasonic flaw detector and the loading board is the fixed interval, can not satisfy the detection demand of different kind materials, in addition, the material monitoring devices that current building engineering used need place monitoring devices in the use, use at the job site, and the job site then need use outside electric power to provide electric power for the device, be not convenient for use, reduce the practicality of device, therefore need a material monitoring devices that building engineering used to solve current problem.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects of the prior art, the material monitoring device for the building engineering is provided, the problems that the material monitoring device for the building engineering needs to be sampled and detected in the using process, the number and the types of detected materials are more, the distance between an ultrasonic flaw detector and a bearing plate is a fixed distance, and the detection requirements of different types of materials cannot be met are solved.

(II) technical scheme

The utility model is realized by the following technical scheme: the utility model provides a material monitoring device for building engineering, which comprises a monitoring box, an operating panel and a bearing plate, wherein the operating panel is arranged on one side of the monitoring box, a display screen is arranged on the operating panel, a power switch is arranged below the operating panel, a charging interface is arranged below the power switch, a protective door is arranged on the other side of the monitoring box, a storage battery is arranged at the bottom in the monitoring box, a voltage stabilizer is arranged on one side of the storage battery, an electric push rod is arranged in the middle in the monitoring box, a supporting plate is arranged above the electric push rod, a slide way is arranged above the supporting plate, a sliding block is arranged on the slide way, the bearing plate is arranged above the sliding block, a positioning wire is arranged at the top of the bearing plate, and an ultrasonic flaw detector is arranged above the bearing plate.

Further, the operation panel is electrically connected with the ultrasonic flaw detector, and the display screen is electrically connected with the operation panel.

By adopting the technical scheme, the ultrasonic flaw detector can work conveniently by a worker through the operation panel, and then a monitoring result is displayed through the display screen.

Furthermore, the power switch is electrically connected with the storage battery, the charging interface is electrically connected with the voltage stabilizer, and the voltage stabilizer is electrically connected with the storage battery.

By adopting the technical scheme, the storage battery can be charged through the charging interface, the voltage is stabilized through the voltage stabilizer in the charging process, and then the power switch controls the on-off of the storage battery, so that the storage battery supplies power for the device.

Furthermore, the electric push rod is electrically connected with the operation panel, and the electric push rod is connected with the support plate through bolts.

By adopting the technical scheme, the bearing plate can be supported by the supporting plate, and then the height of the supporting plate is adjusted by the electric push rod, so that the height of the bearing plate is adjusted.

Further, the sliding block with slide sliding connection, the sliding block with loading board bolted connection.

Through adopting above-mentioned technical scheme, can make the loading board pass through the sliding block with the slide shifts out the detection case makes things convenient for the staff to place the monitoring material.

Furthermore, the ultrasonic flaw detector is connected with the monitoring box through bolts, and the positioning line is formed on the bearing plate.

By adopting the technical scheme, a worker can place materials through the positioning image and then monitor through the ultrasonic flaw detector.

(III) advantageous effects

Compared with the prior art, the utility model has the following beneficial effects:

1. in order to solve the problems that the existing material monitoring device for the building engineering needs to sample and detect materials in the using process, the number and types of detected materials are large, and the distance between the ultrasonic flaw detector and the bearing plate is a fixed distance, so that the detection requirements of different types of materials cannot be met.

2. In order to solve the problems that the monitoring device needs to be placed on a construction site to be used in the using process of the existing material monitoring device for the building engineering, external electric power needs to be used for providing electric power for the device on the construction site, the device is inconvenient to use, and the practicability of the device is reduced.

Drawings

FIG. 1 is a schematic structural view of a material monitoring apparatus for construction engineering according to the present invention;

FIG. 2 is a front cross-sectional view of a material monitoring device for construction work in accordance with the present invention;

fig. 3 is a plan view of a loading plate in a material monitoring device for construction work according to the present invention.

The reference numerals are explained below:

1. a monitoring box; 2. an operation panel; 3. a display screen; 4. a power switch; 5. a charging interface; 6. a protective door; 7. a storage battery; 8. a voltage regulator; 9. an electric push rod; 10. a support plate; 11. a slideway; 12. a slider; 13. a carrier plate; 14. positioning a line; 15. an ultrasonic flaw detector.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

As shown in fig. 1-3, the material monitoring device for construction engineering in this embodiment includes a monitoring box 1, an operation panel 2 and a bearing plate 13, wherein the operation panel 2 is disposed on one side of the monitoring box 1, a worker can control the monitoring box 1 through the operation panel 2, a display screen 3 is disposed on the operation panel 2, the display screen 3 can display a monitoring result of an ultrasonic flaw detector 15, a power switch 4 is disposed below the operation panel 2, the power switch 4 can control the power on/off of a storage battery 7, a charging interface 5 is disposed below the power switch 4, the storage battery 7 can be charged through the charging interface 5, a protection door 6 is disposed on the other side of the monitoring box 1, the protection door 6 can protect the monitoring box 1, the storage battery 7 is disposed at the bottom of the monitoring box 1, the storage battery 7 can supply power to the device, and no external power is needed, the device is convenient to use and improves the practicability of the device, a voltage stabilizer 8 is arranged on one side of a storage battery 7, the voltage stabilizer 8 can stabilize voltage during charging, an electric push rod 9 is arranged in the middle of the inside of a monitoring box 1, the electric push rod 9 can adjust the height of a support plate 10, further adjust the height of a bearing plate 13, and meet the detection requirements of different materials, the support plate 10 is arranged above the electric push rod 9, the support plate 10 can support the bearing plate 13, a slide way 11 is arranged above the support plate 10, the slide way 11 facilitates the movement of a sliding block 12, the sliding block 12 is arranged on the slide way 11, the bearing plate 13 can be driven to move when moving, the bearing plate 13 is arranged above the sliding block 12, the bearing plate 13 can bear monitoring materials, a positioning line 14 is arranged at the top of the bearing plate 13, and a worker can place materials according to the positioning line 14, an ultrasonic flaw detector 15 is arranged above the bearing plate 13, and the ultrasonic flaw detector 15 can monitor materials.

As shown in fig. 1 to 3, in the present embodiment, the operation panel 2 is electrically connected to the ultrasonic flaw detector 15, the display screen 3 is electrically connected to the operation panel 2, the power switch 4 is electrically connected to the storage battery 7, the charging interface 5 is electrically connected to the voltage stabilizer 8, and the voltage stabilizer 8 is electrically connected to the storage battery 7.

As shown in fig. 1 to 3, in the present embodiment, electric push rod 9 is electrically connected to operation panel 2, electric push rod 9 is bolted to support plate 10, slide block 12 is slidingly connected to slide rail 11, slide block 12 is bolted to support plate 13, ultrasonic flaw detector 15 is bolted to monitoring box 1, and positioning wire 14 is formed on support plate 13.

The specific implementation process of this embodiment is as follows: when in use, the worker moves the monitoring box 1 to a use place, then the power switch 4 is turned on to enable the storage battery 7 in the monitoring box 1 to supply power for the monitoring box 1, external power does not need to be used, the use is convenient, the practicability of the device is improved, then the worker opens the protection door 6 to pull the placing plate, the placing plate is enabled to move out of the monitoring box 1 through the movement of the sliding block 12 in the slide rail 11, after the placing plate is moved out, the worker places a sample of a detection material on the bearing plate 13 according to the positioning image on the bearing plate 13 and enables the bearing plate 13 to reset, after the resetting is completed, the worker uses the operation panel 2 to enable the electric push rod 9 to adjust the height of the support plate 10 according to the detection requirement of the material, then the height of the bearing plate 13 is adjusted, the detection requirements of different types of materials are met, the protection door 6 is closed after the adjustment is completed, then the ultrasonic flaw detector 15 is enabled to monitor the material on the bearing plate 13 through the operation panel 2, and the detection result is displayed The screen 3 shows, and after the use was accomplished, the staff can charge for battery 7 through the interface 5 that charges, and simultaneously, stabiliser 8 can be when charging stabilizing voltage.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical solutions of the present invention may be made by those skilled in the art without departing from the design concept of the present invention, and the technical contents of the present invention are all described in the claims.

Claims (6)

1. A material monitoring device for construction engineering, characterized in that: comprises a monitoring box (1), an operating panel (2) and a bearing plate (13), wherein the operating panel (2) is arranged on one side of the monitoring box (1), a display screen (3) is arranged on the operating panel (2), a power switch (4) is arranged below the operating panel (2), a charging interface (5) is arranged below the power switch (4), a protective door (6) is arranged on the other side of the monitoring box (1), a storage battery (7) is arranged at the bottom in the monitoring box (1), a voltage stabilizer (8) is arranged on one side of the storage battery (7), an electric push rod (9) is arranged in the middle in the monitoring box (1), a supporting plate (10) is arranged above the electric push rod (9), a slide way (11) is arranged above the supporting plate (10), a sliding block (12) is arranged on the slide way (11), and the bearing plate (13) is arranged above the sliding block (12), the top of the bearing plate (13) is provided with a positioning line (14), and an ultrasonic flaw detector (15) is arranged above the bearing plate (13).

2. A material monitoring device for construction works according to claim 1, wherein: the operation panel (2) is electrically connected with the ultrasonic flaw detector (15), and the display screen (3) is electrically connected with the operation panel (2).

3. A material monitoring device for construction works according to claim 1, wherein: the power switch (4) is electrically connected with the storage battery (7), the charging interface (5) is electrically connected with the voltage stabilizer (8), and the voltage stabilizer (8) is electrically connected with the storage battery (7).

4. A material monitoring device for construction works according to claim 1, wherein: the electric push rod (9) is electrically connected with the operation panel (2), and the electric push rod (9) is connected with the support plate (10) through bolts.

5. A material monitoring device for construction works according to claim 1, wherein: sliding block (12) with slide (11) sliding connection, sliding block (12) with loading board (13) bolted connection.

6. A material monitoring device for construction works according to claim 1, wherein: ultrasonic flaw detector (15) with monitor box (1) bolted connection, location line (14) shaping in on loading board (13).

Images