CN219455740U - Hoop gravity simulation detection device - Google Patents

Abstract

The utility model belongs to the technical field of hoop detection, and particularly relates to a hoop gravity simulation detection device which comprises a base, wherein a mounting seat is arranged on the base, a detection mechanism is arranged on the mounting seat, a hoop is arranged on the detection mechanism, the detection mechanism comprises a first force application block and a second force application block, a sliding piece is arranged at the bottom of the first force application block, a sliding groove is formed in the mounting seat, a first transmission rod and a second transmission rod are arranged in the detection mechanism, a chain is arranged between the first transmission rod and the second transmission rod, a pressure sensor is arranged on the first force application block, and a motor is arranged in the mounting seat. According to the utility model, the first force application block and the second force application block can be flexibly replaced according to the anchor ear to be detected, so that the fit between the detected anchor ear and the detection mechanism is ensured, the detection effect is ensured, and the applicability is improved.

Description

Hoop gravity simulation detection device

Technical Field

The utility model relates to the technical field of hoop detection, in particular to a hoop gravity simulation detection device.

Background

The staple bolt belongs to one kind of fastener, and the main effect is to the material that the hoops and tighten to be fixed, after staple bolt production, because the staple bolt needs to bear great force in practical application, generally need carry out bearing nature after the finished product staple bolt output to and the detection of relevant mechanics such as toughness, the detection process just needs the detection device that corresponds in order to conveniently detect the staple bolt certainly.

The prior art has the following problems:

the current anchor ear gravity simulation detection device is used for installing the structure of the detected anchor ear and is relatively fixed, so that the anchor ear gravity simulation detection device is inconvenient to operate and assemble and disassemble, and the anchor ear with different laminating needs to be replaced at any time due to the fact that the anchor ear size and the anchor ear integral bending radian are different, and the actual detection effect is guaranteed due to the fact that the anchor ear is laminated with the detection device in the detection process.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the hoop gravity simulation detection device, which solves the problems that the existing hoop gravity simulation detection device is relatively fixed in structure for installing the detected hoop, is inconvenient to operate and disassemble and can not be replaced at any time to adapt to different hoops due to the fact that the size of the hoop and the integral bending radian of the hoop are different, and the actual detection effect is ensured due to the fact that the hoop is attached to the detection device in the detection process.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a staple bolt gravity simulation detection device, includes the base, be provided with the mount pad on the base, be provided with detection mechanism on the mount pad, be provided with the staple bolt on the detection mechanism, detection mechanism includes first application of force piece, second application of force piece, first application of force piece bottom is provided with the slider, the spout has been seted up on the mount pad, be provided with first transfer line, second transfer line in the detection mechanism, be provided with the chain between first transfer line and the second transfer line, be provided with pressure sensor on the first application of force piece, be provided with the motor in the mount pad, the output of motor is provided with first gear, be provided with the second gear on the second transfer line.

As a preferred technical scheme of the utility model: the mounting seat is fixedly arranged on the base, the motor is fixedly arranged in the mounting seat and is electrically connected with an external power supply, and the first gear is fixedly arranged at the output end of the motor.

As a preferred technical scheme of the utility model: the sliding piece is in a T shape, the sliding piece is fixedly arranged at the bottom of the first force application block, and the sliding piece is arranged on the second force application block and the first force application block.

As a preferred technical scheme of the utility model: the sliding grooves are divided into two groups and correspond to the sliding parts at the bottoms of the first force application block and the second force application block, and the sliding parts are matched with the sliding grooves.

As a preferred technical scheme of the utility model: the first force application block and the second force application block are semicircular and are identical in size, and the first force application block and the second force application block share a plurality of groups and are identical in specification and structure.

As a preferred technical scheme of the utility model: screw holes matched with two ends of the first transmission rod and the second transmission rod are formed in the first force application block and the second force application block, screw threads are connected between the first transmission rod and the second transmission rod and between the first force application block and the second force application block, and screw threads at two ends of the first transmission rod and screw threads at two ends of the second transmission rod are oppositely arranged.

As a preferred technical scheme of the utility model: teeth matched with a chain are arranged on the first transmission rod and the second transmission rod, the chain is meshed with the first transmission rod and the second transmission rod, the second gear is sleeved and fixed on the second transmission rod, the first gear is meshed with the second gear, and the pressure sensor is connected with an external corresponding host through a data line.

Compared with the prior art, the utility model provides the hoop gravity simulation detection device, which has the following beneficial effects:

according to the hoop gravity simulation detection device, the first force application block, the second force application block, the first transmission rod, the second transmission rod, the chain, the motor, the first gear and the second gear are arranged, when hoops of different specifications are required to be detected, the first force application block and the second force application block can be rotated to enable the sliding piece to be parallel to the sliding groove, the first force application block and the second force application block of corresponding specifications can be directly taken out and replaced, the novel first force application block and the novel second force application block can be rotated after being placed in the sliding groove to enable the sliding piece to vertically cross the sliding groove, the novel first force application block and the novel second force application block can be limited in the sliding groove, the first force application block and the novel second force application block can be flexibly replaced according to hoops to be detected, the attachment between the detected hoops and the detection mechanism can be guaranteed, the detection effect can be guaranteed, and the applicability can be improved.

Drawings

FIG. 1 is a schematic view of the overall appearance structure of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of the present utility model;

FIG. 3 is a schematic diagram of a first force application block and a second force application block according to the present utility model;

FIG. 4 is a schematic view of a slider mounting structure according to the present utility model;

fig. 5 is a schematic diagram of a cross-sectional structure of a chute according to the present utility model.

In the figure: 1. a base; 2. a mounting base; 3. a detection mechanism; 4. a hoop; 5. a first force application block; 6. a second force application block; 7. a slider; 8. a chute; 9. a first transmission rod; 10. a second transmission rod; 11. a chain; 12. a pressure sensor; 13. a motor; 14. a first gear; 15. and a second gear.

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 to 5, in the present embodiment: the utility model provides a staple bolt gravity simulation detection device, including base 1, be provided with mount pad 2 on the base 1, be provided with detection mechanism 3 on the mount pad 2, be provided with staple bolt 4 on the detection mechanism 3, detection mechanism 3 includes first application of force piece 5, second application of force piece 6, first application of force piece 5 bottom is provided with slider 7, spout 8 has been seted up on the mount pad 2, be provided with first transfer line 9 in the detection mechanism 3, second transfer line 10, be provided with chain 11 between first transfer line 9 and the second transfer line 10, be provided with pressure sensor 12 on the first application of force piece 5, be provided with motor 13 in the mount pad 2, motor 13's output is provided with first gear 14, be provided with second gear 15 on the second transfer line 10.

In this embodiment, the mounting seat 2 is fixedly mounted on the base 1, the motor 13 is fixedly mounted in the mounting seat 2 and is electrically connected with an external power supply, the first gear 14 is fixedly mounted at the output end of the motor 13, and sufficient power can be provided by the motor 13; the sliding piece 7 is in a T shape, the sliding piece 7 is fixedly arranged at the bottom of the first force application block 5, and the sliding piece 7 is arranged on the second force application block 6 and the first force application block 5; the sliding grooves 8 are divided into two groups and correspond to the sliding pieces 7 at the bottoms of the first force application block 5 and the second force application block 6, the sliding pieces 7 are matched with the sliding grooves 8, and the first force application block 5 and the second force application block 6 can be conveniently installed through the sliding grooves 8 and the sliding pieces 7; the first force application block 5 and the second force application block 6 are semicircular and have the same size, the first force application block 5 and the second force application block 6 share a plurality of groups and have different specifications and the structures are the same, and the first force application block 5 and the second force application block 6 can be combined to form the detection mechanism 3; screw holes matched with two ends of a first transmission rod 9 and a second transmission rod 10 are formed in the first force application block 5 and the second force application block 6, screw threads are connected between the first transmission rod 9 and the second transmission rod 10 and the first force application block 5 and the second force application block 6, screw threads at two ends of the first transmission rod 9 and the second transmission rod 10 are oppositely arranged, and the first force application block 5 and the second force application block 6 can be conveniently driven through the first transmission rod 9 and the second transmission rod 10; the first transmission rod 9 and the second transmission rod 10 are provided with teeth matched with the chain 11, the chain 11 is meshed with the first transmission rod 9 and the second transmission rod 10, a transmission structure is formed between the first transmission rod 9 and the second transmission rod 10 through the chain 11, the second gear 15 is sleeved and fixed on the second transmission rod 10, the first gear 14 is meshed with the second gear 15, the pressure sensor 12 is connected with an external corresponding host through a data line, a transmission effect can be formed through the first gear 14 and the second gear 15, and pressure generated during detection of the anchor ear 4 can be known through the pressure sensor 12.

The working principle and the using flow of the utility model are as follows: in the practical use process, the anchor ear 4 to be detected is fixed on the detection mechanism 3 through the installation mode of the conventional anchor ear 4 and corresponds to the pressure sensor 12, then the motor 13 is started, the power of the motor 13 is transmitted to the second transmission rod 10 through the meshing structure between the first gear 14 and the second gear 15, meanwhile, the transmission effect of the chain 11 can drive the first transmission rod 9 to rotate simultaneously, the two ends of the first transmission rod 9 and the second transmission rod 10 are in threaded connection with the first force application block 5 and the second force application block 6, the first transmission rod 9 and the second transmission rod 10 can rotate and simultaneously drive the first force application block 5 and the second force application block 6 to move to two sides, so that the force is applied to the anchor ear 4, meanwhile, the pressure sensor 12 of the anchor ear 4 contacts with the inner side of the anchor ear 4, and the pressure can obtain data through the pressure sensor 12, in the detection process, the deformation state of the anchor ear 4 is observed until the anchor ear 4 reaches the limit, so that the bearing capacity detection of the anchor ear 4 is completed, data can be checked through an external host connected with the pressure sensor 12, if the anchor ear 4 with different specifications is required to be detected, the first force application block 5 and the second force application block 6 can be rotated to enable the sliding piece 7 to be parallel to the chute 8, the first force application block 5 and the second force application block 6 with corresponding specifications can be directly taken out for replacement, the new first force application block 5 and the new second force application block 6 can be rotated after being placed in the chute 8 to enable the sliding piece 7 to vertically intersect with the chute 8, the data can be limited in the chute 8, the first force application block 5 and the second force application block 6 can be flexibly replaced according to the anchor ear 4 to be actually detected, the attachment between the detected anchor ear 4 and the detection mechanism 3 is ensured, and the detection effect is ensured, and the applicability is improved.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The utility model provides a staple bolt gravity simulation detection device, its characterized in that, including base (1), be provided with mount pad (2) on base (1), be provided with detection mechanism (3) on mount pad (2), be provided with staple bolt (4) on detection mechanism (3), detection mechanism (3) are including first application of force piece (5), second application of force piece (6), first application of force piece (5) bottom is provided with slider (7), spout (8) have been seted up on mount pad (2), be provided with first transfer line (9), second transfer line (10) in detection mechanism (3), be provided with chain (11) between first transfer line (9) and second transfer line (10), be provided with pressure sensor (12) on first application of force piece (5), be provided with motor (13) in mount pad (2), the output of motor (13) is provided with first gear (14), be provided with second gear (15) on second transfer line (10).

2. The hoop gravity simulation detection device according to claim 1, wherein: the mounting seat (2) is fixedly mounted on the base (1), the motor (13) is fixedly mounted in the mounting seat (2) and is electrically connected with an external power supply, and the first gear (14) is fixedly mounted at the output end of the motor (13).

3. The hoop gravity simulation detection device according to claim 1, wherein: the sliding piece (7) is in a T shape, the sliding piece (7) is fixedly arranged at the bottom of the first force application block (5), and the sliding piece (7) is arranged on the second force application block (6) and the first force application block (5).

4. The hoop gravity simulation detection device according to claim 1, wherein: the sliding grooves (8) are two groups, correspond to the sliding parts (7) at the bottoms of the first force application block (5) and the second force application block (6), and are matched with the sliding grooves (8).

5. The hoop gravity simulation detection device according to claim 1, wherein: the first force application blocks (5) and the second force application blocks (6) are semicircular and are identical in size, and the first force application blocks (5) and the second force application blocks (6) share a plurality of groups and are identical in specification and structure.

6. The hoop gravity simulation detection device according to claim 1, wherein: screw holes matched with two ends of a first transmission rod (9) and a second transmission rod (10) are formed in the first force application block (5) and the second force application block (6), screw threads are arranged between the first transmission rod (9) and the second transmission rod (10) and the first force application block (5) and the second force application block (6), and screw threads at two ends of the first transmission rod (9) and screw threads at two ends of the second transmission rod (10) are oppositely arranged.

7. The hoop gravity simulation detection device according to claim 1, wherein: teeth matched with a chain (11) are arranged on the first transmission rod (9) and the second transmission rod (10), the chain (11) is meshed with the first transmission rod (9) and the second transmission rod (10), the second gear (15) is sleeved and fixed on the second transmission rod (10), the first gear (14) is meshed with the second gear (15), and the pressure sensor (12) is connected with an external corresponding host through a data line.