CN210198304U

CN210198304U - Building major structure on-site measuring device

Info

Publication number: CN210198304U
Application number: CN201921290670.6U
Authority: CN
Inventors: Rui Qiao; 乔锐; Zhiwei Li; 李志伟; Shaoke Liang; 梁少珂
Original assignee: Henan Huajian Engineering Quality Inspection And Testing Co Ltd
Current assignee: Henan Huajian Engineering Quality Inspection And Testing Co Ltd
Priority date: 2019-08-10
Filing date: 2019-08-10
Publication date: 2020-03-27
Anticipated expiration: 2029-08-10

Abstract

The utility model relates to a building major structure field inspection device, it mainly includes electric telescopic handle, electric telescopic handle bottom be provided with power A, the electric telescopic handle top be provided with transmitting probe, the transmitting probe outside be provided with electro-magnet A, transmitting probe top have by survey floor, by being provided with receiving probe above surveying floor, receiving probe top be connected with the display screen, receiving probe outside be provided with electro-magnet B, the electro-magnet B outside be provided with power B, the utility model discloses effectively solved among the prior art measure cause the harm to the floor, detection efficiency is lower, the testing process is consuming time longer, use comparatively inconvenient scheduling problem to dismantle and conveniently maintain after finishing using in the connection of dismantling, convenient to carry, general the utility model discloses have convenient to carry, to being surveyed the floor not have a bad, The detection efficiency is high, the detection process consumes short time, and the use is convenient and fast.

Description

Building major structure on-site measuring device

Technical Field

The utility model belongs to building major structure field, concretely relates to detection device, in particular to building major structure on-the-spot detection device.

Background

The detection of the building main body is divided into concrete resilience detection, floor thickness detection, steel bar protective layer thickness, steel bar quantity distribution and clearance size structure verticality detection, each detection uses different detection instruments, the second floor thickness detection is an extremely important detection content, the existing floor thickness is generally detected by a steel tape, although the detection has the characteristic of simplicity and easiness in operation, a hole needs to be formed in a floor for detection, certain damage can be caused to the floor, the detection efficiency is low, an ultrasonic wave opposite measurement method is to work by utilizing a transmitting probe and a receiving probe, the transmitting probe is arranged on the bottom surface of the floor, the receiving probe is arranged on the top surface of the floor, the receiving probe moves back and forth on the top surface of the floor until the value displayed on a display screen is the minimum, the existing ultrasonic detector needs to continuously move to find the position of the transmitting probe during detection, the detection efficiency is extremely low, the detection process consumes a long time, and the use is inconvenient.

Disclosure of Invention

In order to overcome the not enough of prior art, now provide a building major structure field detection device, can effectively solve among the prior art measure cause the harm to the floor, detection efficiency is lower, the testing process is consuming time longer, use comparatively inconvenient scheduling problem.

The purpose of the utility model is realized like this: the utility model provides a building major structure field inspection device, it mainly includes electric telescopic handle, electric telescopic handle bottom be provided with power A, the electric telescopic handle top be provided with transmitting probe, transmitting probe outside be provided with electro-magnet A, transmitting probe top have by survey the floor, surveyed floor top be provided with receiving probe, receiving probe top be connected with the display screen, the receiving probe outside be provided with electro-magnet B, electro-magnet B outside be provided with power B.

And the power supply A is electrically connected with the electric telescopic rod, the electromagnet A and the transmitting probe.

And the power supply B is electrically connected with the receiving probe, the display screen and the electromagnet B.

The transmitting probe is a transmitting probe capable of transmitting electromagnetic signals, and the receiving probe is a receiving probe capable of receiving electromagnetic signals and provided with a signal processing unit.

The electromagnet A and the transmitting probe, and the electromagnet B and the receiving probe are detachably connected.

The utility model has the advantages that: when the utility model is used, the electric telescopic rod is started to extend, the electric telescopic rod extends to drive the transmitting probe and the electromagnet A to ascend, the transmitting probe is attached to the lower surface of a floor to be detected and stops the operation of the electric telescopic rod, the electromagnet A is started, the receiving probe and the electromagnet B are attached to the upper surface of the floor to be detected after the starting, then the electromagnet B is started, the relative position of the receiving probe and the transmitting probe can be quickly positioned through the mutual attraction between the electromagnet A and the electromagnet B, after the relative position is determined, the electromagnet A and the electromagnet B are closed, then the transmitting probe and the receiving probe are started, electromagnetic signals are transmitted through the transmitting probe, when the receiving probe receives the electromagnetic signals of the transmitting probe, the signal processing unit analyzes according to the kinematic characteristics of the electromagnetic waves, the distance from the receiving probe is automatically calculated, and the distance is the thickness of the floor to, and accomplish the demonstration of thickness value at the display screen, electro-magnet A and transmitting probe, electro-magnet B are can dismantle with receiving probe and be connected, convenient maintenance after finishing using, and dismantle and connect and dismantle it after conveniently finishing using, conveniently carry, the utility model discloses effectively solved among the prior art measure cause the harm to the floor, detection efficiency is lower, the testing process is consuming time longer, use comparatively inconvenient scheduling problem to dismantle and connect and conveniently maintain after finishing using, convenient to carry, general the utility model has the advantages of convenient to carry, to being surveyed the floor undamaged, detection efficiency is high, the testing process weak point consuming time, convenient to use is swift.

Drawings

Fig. 1 is the utility model discloses a building major structure field inspection device's schematic structure.

In the figure: 1. electric telescopic handle 2, power A3, transmitting probe 4, electro-magnet A5, by survey floor 6, receiving probe 7, display screen 8, electro-magnet B9, power B.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Example 1

As shown in figure 1, a building major structure field inspection device, it mainly includes electric telescopic handle 1, 1 bottom of electric telescopic handle be provided with power A2, 1 top of electric telescopic handle be provided with projecting probe 3, the 3 outside of projecting probe be provided with electro-magnet A4, 3 tops of projecting probe have surveyed

floor

5, 5 tops of being surveyed floor be provided with receiving probe 6, 6 tops of receiving probe be connected with display screen 7, 6 outsides of receiving probe be provided with electro-magnet B8, the electro-magnet B8 outside be provided with power B9.

The utility model discloses when using: when the utility model is used, the electric telescopic rod is started to extend, the electric telescopic rod extends to drive the transmitting probe and the electromagnet A to ascend, the transmitting probe is attached to the lower surface of a floor to be detected and stops the operation of the electric telescopic rod, the electromagnet A is started, the receiving probe and the electromagnet B are attached to the upper surface of the floor to be detected after the starting, then the electromagnet B is started, the relative position of the receiving probe and the transmitting probe can be quickly positioned through the mutual attraction between the electromagnet A and the electromagnet B, after the relative position is determined, the electromagnet A and the electromagnet B are closed, then the transmitting probe and the receiving probe are started, electromagnetic signals are transmitted through the transmitting probe, when the receiving probe receives the electromagnetic signals of the transmitting probe, the signal processing unit analyzes according to the kinematic characteristics of the electromagnetic waves, the distance from the receiving probe is automatically calculated, and the distance is the thickness of the floor to, and accomplish the demonstration of thickness value at the display screen, the utility model discloses effectively solved among the prior art measure cause the floor harm, detection efficiency is lower, the testing process is consuming time longer, use comparatively inconvenient scheduling problem to dismantle to connect and conveniently maintain after finishing using, convenient to carry, general the utility model has the advantages of convenient to carry, to being surveyed the floor not have the damage, detection efficiency is high, the testing process weak point consuming time, convenient to use is swift.

Example 2

As shown in figure 1, a building major structure on-site detection device, it mainly includes electric telescopic handle 1, electric telescopic handle 1 bottom be provided with power A2, electric telescopic handle 1 top be provided with emission probe 3, emission probe 3 outside be provided with electro-magnet A4, emission probe 3 top have surveyed floor 5, surveyed floor 5 top be provided with receiving probe 6, receiving probe 6 top be connected with display screen 7, receiving probe 6 outside be provided with electro-magnet B8, the electro-magnet B8 outside be provided with power B9, power A2 and electric telescopic handle 1, electro-magnet A4, emission probe 3 be the electricity and be connected, power B9 and receiving probe 6, display screen 7, electro-magnet B8 be the electricity and be connected, emission probe 3 be emittance electromagnetic signal emission probe 3, the receiving probe 6 is a receiving probe 6 which can receive electromagnetic signals and is provided with a signal processing unit, and the electromagnet A4 is detachably connected with the transmitting probe 3, and the electromagnet B8 is detachably connected with the receiving probe 6.

The utility model discloses when using: when the utility model is used, the electric telescopic rod is started to extend, the electric telescopic rod extends to drive the transmitting probe and the electromagnet A to ascend, the transmitting probe is attached to the lower surface of a floor to be detected and stops the operation of the electric telescopic rod, the electromagnet A is started, the receiving probe and the electromagnet B are attached to the upper surface of the floor to be detected after the starting, then the electromagnet B is started, the relative position of the receiving probe and the transmitting probe can be quickly positioned through the mutual attraction between the electromagnet A and the electromagnet B, after the relative position is determined, the electromagnet A and the electromagnet B are closed, then the transmitting probe and the receiving probe are started, electromagnetic signals are transmitted through the transmitting probe, when the receiving probe receives the electromagnetic signals of the transmitting probe, the signal processing unit analyzes according to the kinematic characteristics of the electromagnetic waves, the distance from the receiving probe is automatically calculated, and the distance is the thickness of the floor to, and accomplish the demonstration of thickness value at the display screen, electro-magnet A and transmitting probe, electro-magnet B are can dismantle with receiving probe and be connected, convenient maintenance after finishing using, and dismantle and connect and dismantle it after conveniently finishing using, conveniently carry, the utility model discloses effectively solved among the prior art measure cause the harm to the floor, detection efficiency is lower, the testing process is consuming time longer, use comparatively inconvenient scheduling problem to dismantle and connect and conveniently maintain after finishing using, convenient to carry, general the utility model has the advantages of convenient to carry, to being surveyed the floor undamaged, detection efficiency is high, the testing process weak point consuming time, convenient to use is swift.

Claims

1. The utility model provides a building major structure field inspection device, it mainly includes electric telescopic handle, its characterized in that: electric telescopic handle bottom be provided with power A, the electric telescopic handle top be provided with transmitting probe, transmitting probe outside be provided with electro-magnet A, transmitting probe top have the floor of being surveyed, the floor of being surveyed top be provided with receiving probe, receiving probe top be connected with the display screen, receiving probe outside be provided with electro-magnet B, the electro-magnet B outside be provided with power B.

2. The on-site detection device for the building main body structure according to claim 1, wherein: and the power supply A is electrically connected with the electric telescopic rod, the electromagnet A and the transmitting probe.

3. The on-site detection device for the building main body structure according to claim 1, wherein: and the power supply B is electrically connected with the receiving probe, the display screen and the electromagnet B.

4. The on-site detection device for the building main body structure according to claim 1, wherein: the transmitting probe is a transmitting probe capable of transmitting electromagnetic signals, and the receiving probe is a receiving probe capable of receiving electromagnetic signals and provided with a signal processing unit.

5. The on-site detection device for the building main body structure according to claim 1, wherein: the electromagnet A and the transmitting probe, and the electromagnet B and the receiving probe are detachably connected.