CN219590102U - Energy-saving steel structure bearing capacity detection mechanism - Google Patents

Abstract

The utility model discloses an energy-saving steel structure bearing capacity detection mechanism which comprises a placing base, wherein a monitoring assembly which is convenient for monitoring applied pressure when the energy-saving steel structure bears capacity is arranged at the top of the placing base, a pressing plate is fixedly arranged at the top of the placing base through the monitoring assembly, a lifting assembly which is convenient for lifting the energy-saving steel structure is arranged at the top of the placing base, and energy-saving steel is fixedly arranged at the top of the placing base through the lifting assembly. When the monitoring component monitors that the applied pressure reaches the standard value, the lifting component is controlled by the external controller to drive the energy-saving steel to reset, the energy-saving steel is detected by the detecting component, the aim of conveniently detecting the bearing capacity of the energy-saving steel structure is fulfilled, whether the energy-saving steel structure reaches the standard or not can be intuitively seen by the level meter arranged in the detecting component, and the energy-saving steel structure with different specifications is conveniently clamped and fixed by the lifting component.

Description

Energy-saving steel structure bearing capacity detection mechanism

Technical Field

The utility model relates to the technical field of energy-saving steel structure detection, in particular to an energy-saving steel structure bearing capacity detection mechanism.

Background

The steel structure is a structure composed of steel materials, is one of main building structure types, and is characterized by high strength, light dead weight, good overall rigidity and strong deformation resistance, and is widely applied to the fields of large-scale factory buildings, venues, super high floors and the like, wherein a lightweight steel structure system without a thermal bridge is called an energy-saving steel structure.

The energy-saving steel structure is usually required to be subjected to bearing capacity detection before being used, and is usually placed in a universal testing machine to be subjected to bearing capacity detection, but the universal testing machine is complex in structure, high in manufacturing cost and large in use limitation.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides an energy-saving steel structure bearing capacity detection mechanism which is used for solving the problems that bearing capacity detection is usually required before an energy-saving steel structure is used, the energy-saving steel structure is usually placed in a universal testing machine for bearing capacity detection, but the universal testing machine is complex in structure, high in manufacturing cost and large in use limitation.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an energy-conserving steel construction bearing capacity detection mechanism, includes places the base, place the base top and be provided with the monitoring component that is convenient for monitor the pressure of appling when energy-conserving steel construction carries out the bearing capacity, it is fixed to be provided with the pressure board through the monitoring component to place the base top, it is provided with the lifting means who is convenient for promote energy-conserving steel construction to place the base top, it is fixed to be provided with energy-conserving steel through the lifting means to place the base top, it is provided with the detection component that is convenient for detect after energy-conserving steel construction bearing capacity detects to place the base top.

Preferably, the monitoring assembly comprises a supporting frame arranged at the top of the placing base, a fixing plate is fixedly arranged at the top of the inner wall of the supporting frame, a pressure sensor and an elastic piece are fixedly arranged at the bottom of the fixing plate, and the pressure sensor and the elastic piece are fixedly connected with the pressing plate.

Preferably, the lifting assembly comprises a hydraulic push rod arranged at the top of the placement base, a movable plate is fixedly arranged at the output end of the hydraulic push rod, a supporting plate is fixedly arranged at the top of the movable plate, a clamping plate is arranged in the supporting plate in a sliding mode, the clamping plate and the movable plate are all arranged in a lap joint mode with energy-saving steel, a screw is arranged on the inner thread of the clamping plate, a limiting plate is arranged on the surface of the screw in a rotating mode, the limiting plate is fixedly connected with the movable plate, and a rotating handle is fixedly arranged at the end portion of the screw.

Preferably, the detection assembly comprises a support sleeve arranged at the top of the placement base, a movable column is arranged in the support sleeve in a sliding manner, a threaded knob is arranged in the support sleeve in a threaded manner, the threaded knob and the movable column are in lap joint, a hinged plate is arranged at the top of the movable column in a hinged manner through a hinged seat, and a level gauge is fixedly arranged at the top of the hinged plate.

Preferably, the number of the elastic pieces is four or a multiple of four, and the elastic pieces are all positioned at the bottom of the fixing plate.

Preferably, the number of the hydraulic pushing rods is two or a multiple of two, and the plurality of hydraulic pushing rods are symmetrically distributed.

Compared with the prior art, the utility model has the beneficial effects that: according to the energy-saving steel structure bearing capacity detection mechanism, energy-saving steel is placed on the lifting assembly, the energy-saving steel is in contact with the detection assembly at the moment, the detection assembly is in a horizontal state, the detection assembly is regulated according to the bearing capacity detection requirement of the energy-saving steel, the energy-saving steel is pushed to be in contact with the pressing plate through the lifting assembly, the pressing plate is used for pressing the monitoring assembly, when the monitoring assembly monitors that the applied pressure reaches a standard value, the lifting assembly is controlled by the external controller to drive the energy-saving steel to reset, and the energy-saving steel is detected through the detection assembly; the energy-saving steel structure detection device has the advantages that the aim of being convenient for detect the bearing capacity of the energy-saving steel structure is achieved, whether the energy-saving steel structure meets the standard can be intuitively seen through the level meter arranged in the detection assembly, and the energy-saving steel structure with different specifications is convenient to clamp and fix through the lifting assembly.

Drawings

FIG. 1 is an isometric view of a structure of the present utility model;

FIG. 2 is a schematic view of a structural lift assembly according to the present utility model;

FIG. 3 is a schematic diagram of a structural inspection assembly according to the present utility model;

fig. 4 is a front sectional view of a partial structure of the structure detecting assembly of the present utility model.

In the figure: the device comprises a base 1, a support frame 2, a fixed plate 3, a pressure sensor 4, a pressing plate 5, a hydraulic push rod 6, a moving plate 7, a support plate 8, a clamping plate 9, energy-saving steel 10, a screw 11, a limit plate 12, a rotating handle 13, a support sleeve 14, a moving column 15, a threaded knob 16, an elastic piece 17, a hinge plate 18 and a level gauge 19.

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, an energy-saving steel structure bearing capacity detection mechanism comprises a placing base 1, wherein a monitoring component which is convenient for monitoring applied pressure when the energy-saving steel structure bears capacity is arranged at the top of the placing base 1, the monitoring component comprises a supporting frame 2 which is arranged at the top of the placing base 1, a fixing plate 3 is fixedly arranged at the top of the inner wall of the supporting frame 2, a pressure sensor 4 and elastic pieces 17 are fixedly arranged at the bottom of the fixing plate 3, the number of the elastic pieces 17 is four or multiple of four, a plurality of elastic pieces 17 are all arranged at the bottom of the fixing plate 3, the pressure sensor 4 is convenient for assisting the pressure sensor 4 to fix a pressure applying plate 5, the pressure sensor 4 and the elastic pieces 17 are fixedly connected with the pressure applying plate 5, the pressure applying plate 5 applies pressure to the pressure applying plate 4, when the pressure sensor 4 monitors that the applied pressure reaches a standard value, a hydraulic push rod 6 is controlled by an external controller to stop, the pressure applied is conveniently monitored through the monitoring component, the pressure applied is prevented from being too large or too small, the pressure applying plate 5 is fixedly arranged at the top of the placing base 1 through the monitoring component, the lifting component which is convenient for lifting the energy-saving steel structure is arranged at the top of the placing base 1, the lifting component comprises the hydraulic push rods 6 which are arranged at the top of the placing base 1, the number of the hydraulic push rods 6 is a multiple of two or two, the hydraulic push rods 6 are symmetrically distributed, the energy-saving steel 10 can be stably placed after being stressed, the movable plate 7 is fixedly arranged at the output end of the hydraulic push rods 6, the supporting plate 8 is fixedly arranged at the top of the movable plate 7, the clamping plate 9 is arranged in a lap joint manner with the energy-saving steel 10 in a sliding manner, the internal threads of the clamping plate 9 are provided with the screw rods 11, the limiting plates 12 are rotationally arranged on the surfaces of the screw rods 11, the limiting plate 12 is fixedly connected with the moving plate 7, the rotating handle 13 is fixedly arranged at the end part of the screw 11, the screw 11 is driven to rotate by rotating the rotating handle 13, so that the screw 11 drives the clamping plate 9 to clamp and fix the energy-saving steel 10, the output end is driven to stretch by the hydraulic push rod 6, the energy-saving steel 10 of the moving plate 7 is pushed to be contacted with the pressurizing plate 5, the energy-saving steel structure is convenient to be contacted with the pressurizing plate 5, the lifting assembly is matched with the pressurizing plate 5 to be convenient for applying pressure when detecting the bearing capacity of the energy-saving steel structure, the energy-saving steel 10 is fixedly arranged at the top of the placing base 1 through the lifting assembly, the detecting assembly is arranged at the top of the placing base 1 and is convenient for detecting after detecting the bearing capacity of the energy-saving steel structure, the detecting assembly comprises a supporting sleeve 14 arranged at the top of the placing base 1, a moving column 15 is arranged in the supporting sleeve 14 in a sliding way, a threaded knob 16 is arranged in the supporting sleeve 14, the screw knob 16 and the movable column 15 are arranged in a lap joint way, the hinge plate 18 is hinged at the top of the movable column 15 through the hinge seat, the level meter 19 is fixedly arranged at the top of the hinge plate 18, the height of the level meter 19 is regulated according to the bearing capacity detection requirement of the energy-saving steel 10, the energy-saving steel 10 is reset, the energy-saving steel 10 is in contact with the level meter 19, if the energy-saving steel 10 deforms, the level meter 19 is in an inclined state, if the energy-saving steel 10 does not deform, the level meter 19 is in a horizontal state, the pressurized energy-saving steel structure is conveniently detected, whether the energy-saving steel structure meets the standard or not is conveniently detected, the energy-saving steel structure bearing capacity detection mechanism is used for placing the energy-saving steel 10 on the lifting assembly, the energy-saving steel 10 is in contact with the detection assembly at the moment, the detection assembly is in a horizontal state, the detection assembly is regulated according to the bearing capacity detection requirement of the energy-saving steel 10, the energy-saving steel 10 is pushed to be contacted with the pressurizing plate 5 through the lifting assembly, the pressurizing plate 5 is used for pressurizing the monitoring assembly, when the monitoring assembly monitors that the applied pressure reaches a standard value, the lifting assembly is controlled by the external controller to drive the energy-saving steel 10 to reset, the energy-saving steel 10 is detected through the detecting assembly, the aim of conveniently detecting the bearing capacity of the energy-saving steel structure is achieved, whether the energy-saving steel structure meets the standard or not can be intuitively seen through the level meter 19 arranged in the detecting assembly, and the energy-saving steel structure with different specifications is conveniently clamped and fixed through the lifting assembly.

The electrical components are all connected with an external main controller and 220V mains supply, and the main controller can be conventional known equipment for controlling a computer and the like.

When in use: placing energy-saving steel 10 on a movable plate 7 arranged in a lifting assembly, at the moment, enabling the energy-saving steel 10 to be in contact with a level meter 19 arranged in a detection assembly, enabling the level meter 19 to be in a horizontal state, adjusting a movable column 15 through a threaded knob 16 and a supporting sleeve 14, adjusting the height of the level meter 19 according to the bearing capacity detection requirement of the energy-saving steel 10, driving a screw 11 to rotate through a rotating handle 13, enabling the screw 11 to drive a clamping plate 9 to move, enabling the clamping plate 9 to be in contact with the energy-saving steel 10, clamping and fixing the energy-saving steel 10, driving an output end to extend through a hydraulic push rod 6, pushing the movable plate 7 to move upwards, enabling the energy-saving steel 10 to be in contact with a pressurizing plate 5, enabling the pressurizing plate 5 to pressurize a pressure sensor 4, enabling the hydraulic push rod 6 to be controlled to stop when the pressure sensor 4 monitors that the applied pressure reaches a standard value, enabling the movable plate 7 to drive the output end to move downwards, enabling the movable plate 7 to drive the energy-saving steel 10 to reset, enabling the energy-saving steel 10 to be in contact with the level meter 19 arranged in the detection assembly, enabling the energy-saving steel 10 to be in the state to be in contact with the level meter 19, and enabling the energy-saving steel 10 to be in a deformation state to be in the state if the energy-saving steel 19 is not in the state of being in which the level meter 19 is in an inclined state.

To sum up, this energy-conserving steel construction bearing capacity detection mechanism, place energy-conserving steel 10 on lifting means, energy-conserving steel 10 and detection subassembly contact this moment, and detection subassembly is in the horizontality, it needs to adjust detection subassembly to detect according to the bearing capacity of energy-conserving steel 10, promote energy-conserving steel 10 and press board 5 contact through lifting means, make the pressure board 5 exert pressure to monitoring assembly, when monitoring assembly monitors the pressure that applys and reach the standard value, it resets to drive energy-conserving steel 10 through external control ware control lifting means, detect energy-conserving steel 10 through detection subassembly, the target of being convenient for detect energy-conserving steel construction bearing capacity is realized, and whether can see energy-conserving steel construction up to standard through the spirit level 19 that sets up in the detection subassembly directly perceivedly, and be convenient for carry out the centre gripping fixed to the energy-conserving steel construction of different specifications through lifting means, be used for solving energy-conserving steel construction and usually need carry out bearing capacity detection before using, energy-conserving steel construction is placed in the universal testing machine in general bearing capacity detection, but universal testing machine structure is complicated, high, and the problem that the use limitation is great.

It should be noted that in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (6)

1. The utility model provides an energy-conserving steel construction bearing capacity detection mechanism, including placing base (1), its characterized in that, place base (1) top and be provided with the monitoring component that is convenient for monitor the pressure of appling when energy-conserving steel construction carries out the bearing capacity, place base (1) top and pass through the fixed pressure board (5) that is provided with of monitoring component, place base (1) top and be provided with the lifting means that is convenient for promote energy-conserving steel construction, place base (1) top and pass through the lifting means and fixedly be provided with energy-conserving steel (10), place base (1) top and be provided with the detection component that is convenient for detect after energy-conserving steel construction bearing capacity detects.

2. The energy-saving steel structure bearing capacity detection mechanism according to claim 1, wherein the monitoring assembly comprises a support frame (2) arranged at the top of the placement base (1), a fixing plate (3) is fixedly arranged at the top of the inner wall of the support frame (2), a pressure sensor (4) and an elastic piece (17) are fixedly arranged at the bottom of the fixing plate (3), and the pressure sensor (4) and the elastic piece (17) are fixedly connected with the pressing plate (5).

3. The energy-saving steel structure bearing capacity detection mechanism according to claim 1, wherein the lifting assembly comprises a hydraulic push rod (6) arranged at the top of the placement base (1), a movable plate (7) is fixedly arranged at the output end of the hydraulic push rod (6), a supporting plate (8) is fixedly arranged at the top of the movable plate (7), a clamping plate (9) is slidably arranged in the supporting plate (8), the clamping plate (9) and the movable plate (7) are both in lap joint with the energy-saving steel (10), a screw (11) is arranged in internal threads of the clamping plate (9), a limiting plate (12) is arranged on the surface of the screw (11) in a rotating mode, the limiting plate (12) is fixedly connected with the movable plate (7), and a rotating handle (13) is fixedly arranged at the end part of the screw (11).

4. The energy-saving steel structure bearing capacity detection mechanism according to claim 1, wherein the detection assembly comprises a support sleeve (14) arranged at the top of the placement base (1), a movable column (15) is slidably arranged inside the support sleeve (14), a threaded knob (16) is arranged in the support sleeve (14) in a threaded mode, the threaded knob (16) and the movable column (15) are arranged in a lap joint mode, a hinge plate (18) is arranged at the top of the movable column (15) in a hinged mode through a hinge seat, and a level meter (19) is fixedly arranged at the top of the hinge plate (18).

5. An energy saving steel structure bearing capacity detecting mechanism according to claim 2, wherein the number of the elastic members (17) is four or a multiple of four, and the plurality of elastic members (17) are all located at the bottom of the fixing plate (3).

6. An energy-saving steel structure bearing capacity detection mechanism according to claim 3, wherein the number of the hydraulic pushing rods (6) is two or a multiple of two, and the plurality of hydraulic pushing rods (6) are symmetrically distributed.