CN219348396U - Assembled cold bending performance test device - Google Patents

Abstract

The utility model relates to an assembled cold bending performance test device, which belongs to the technical field of mechanical performance detection and comprises a base, wherein a supporting component is detachably arranged on the surface of the base, a cross beam is detachably arranged at the top of the supporting component, a lifting device is arranged on the surface of the base, the lifting device is positioned below the cross beam, a storage component is arranged at the top end of the lifting device, a pressing plate piece is arranged on the side wall, facing the base, of the cross beam, and the pressing plate piece is positioned right above the storage component. The cold bending performance test device is simple in structure, convenient to detach and install, can meet the use of a factory production line, and improves the working efficiency of staff.

Description

Assembled cold bending performance test device

Technical Field

The utility model relates to the technical field of mechanical property detection, in particular to an assembled cold bending property test device.

Background

In order to judge whether the metal material meets the parameter standard of the construction engineering, a worker usually tests the cold bending performance of the metal material before construction so as to ensure that the metal material used for construction meets the standard and ensure the construction quality.

The factory production line staff usually sends the metallic material who processes to the laboratory and detects, if laboratory detection's result is unqualified, then needs production line staff to continue to send the inspection, in order to save staff and send laboratory inspection time of passing through, and reduce laboratory's experimental cost, production line staff carries out preliminary detection before sending metallic material to laboratory and detects earlier, therefore need a simple to operate, simple structure to detachable cold bending performance test device urgently.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide an assembled cold bending performance test device.

The utility model provides an assembled cold bending performance test device, which adopts the following technical scheme:

the utility model provides an assembled cold bending performance test device, includes the base, the base surface can be dismantled and is provided with supporting component, the supporting component top can be dismantled and be provided with the crossbeam, hoisting device has been placed on the base surface, hoisting device is located the crossbeam below, the thing subassembly of putting has been placed on the hoisting device top, the crossbeam is provided with the clamp plate piece towards the lateral wall of base, the clamp plate piece is located directly over the thing subassembly.

Preferably, the article placing component comprises a connecting plate, an adjusting plate and a placing block, wherein the adjusting plate and the placing block are respectively provided with two groups, the two groups of adjusting plates are symmetrically arranged on the surface of the connecting plate, the two groups of placing blocks are respectively arranged on the upper surfaces of the two groups of adjusting plates, the two groups of placing blocks are respectively arranged at one ends, close to the two groups of adjusting plates, of the two groups of placing blocks, and the opposite side walls of the placing blocks are respectively provided with openings.

Preferably, the connecting plate is provided with a plurality of groups of first screw holes, the adjusting plate is provided with a plurality of groups of second screw holes corresponding to the first screw holes, and the adjusting plate is connected with the connecting plate through screws.

Preferably, the surface of the adjusting plate is provided with a first stiffening plate which is abutted with the stacking block.

Preferably, the support assembly comprises a support column, a bottom plate and a top plate, wherein the support column is provided with two groups, the bottom plate and the top plate are respectively fixedly arranged at the bottom end and the top end of the support column, the bottom plate is connected with the base through bolts, and the top plate is connected with the cross beam through bolts.

Preferably, sliding balls are respectively arranged at two ends of the length direction of the connecting plate, sliding grooves for embedding sliding blocks are respectively formed in the side walls of the two groups of support columns along the vertical direction, and the sliding grooves penetrate through the top plate.

Preferably, the connecting plate is fixedly provided with a second stiffening plate which is abutted with the sliding ball.

Preferably, the side wall of the support column is fixedly provided with a horizontal limiting rod, and the limiting rod is positioned at the notch of the chute.

Preferably, the surface of the base is fixedly provided with a positioning block, the positioning block is provided with a positioning opening, and the bottom end of the lifting device is positioned in the positioning opening.

In summary, the utility model has the following beneficial technical effects:

1. the base is the detachable connection state with the supporting component, and the supporting component is the detachable connection state with the crossbeam, and hoisting device places in the base upper surface to put the thing subassembly and place in the hoisting device top, this device structure is the detachable setting, simple structure, and the dismantlement and the installation of staff of being convenient for.

2. The connecting plate and the adjusting plate are connected through screws, and the connecting plate and the adjusting plate are respectively provided with a plurality of groups of first screw holes and second screw holes, and the placing blocks are arranged on the upper surface of the adjusting plate, so that the distance between the two placing blocks can be conveniently adjusted by a worker.

Drawings

FIG. 1 is a schematic structural diagram of an assembled cold bending performance test device according to an embodiment of the present utility model;

fig. 2 is a schematic view of the structure of the storage assembly in a disassembled state.

Reference numerals illustrate: 1. a base; 2. a support assembly; 21. a support post; 211. a chute; 212. a limit rod; 22. a bottom plate; 23. a top plate; 3. a cross beam; 4. a lifting device; 5. a storage component; 51. a connecting plate; 511. a second screw hole; 512. a screw; 513. a sliding ball; 514. a second stiffening plate; 52. an adjusting plate; 521. a first screw hole; 522. a first stiffening plate; 53. stacking blocks; 531. an opening; 6. a platen member; 7. a positioning block; 71. and positioning the opening.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-2.

The embodiment of the utility model discloses an assembled cold bending performance test device. Referring to fig. 1, the lifting device comprises a base 1, wherein a supporting component 2 is connected to the surface of the base 1 through bolts, a cross beam 3 is connected to the top of the supporting component 2, a lifting device 4 is placed on the surface of the base 1, the lifting device 4 in the embodiment is most preferably a jack, the lifting device 4 is located below the cross beam 3, a storage component 5 is placed at the top end of the lifting device 4, a pressing plate piece 6 is fixedly connected to the side wall of the cross beam 3, facing the base 1, and the pressing plate piece 6 is located right above the storage component 5.

Referring to fig. 1 and 2, the storage assembly 5 includes a connecting plate 51, an adjusting plate 52 and a stacking block 53, wherein the adjusting plate 52 and the stacking block 53 are respectively provided with two groups, the two groups of adjusting plates 52 are respectively arranged on the upper surfaces of two ends of the connecting plate 51 in the length direction, the two groups of stacking blocks 53 are respectively and fixedly connected to the upper surfaces of two groups of adjusting plates 52 close to one end, and the opposite side walls of the two groups of stacking blocks 53 are respectively provided with an opening 531; the surface of the connecting plate 51 is provided with a plurality of groups of first screw holes 521, the adjusting plate 52 is provided with a plurality of groups of second screw holes 511 corresponding to the first screw holes 521, and the adjusting plate 52 is connected with the connecting plate 51 through screws 512, so that a worker can adjust the distance between the two adjusting plates 52, and the distance between the two placing blocks 53 can be changed according to the condition of the metal material to be measured; the surface of the adjusting plate 52 is fixedly connected with a first stiffening plate 522 which is abutted against the placing block 53, the placing block 53 is stressed in the process of testing the metal material to be tested, and the first stiffening plate 522 plays a role in supporting the placing block 53.

Referring to fig. 1 and 2, the support assembly 2 includes a pillar 21, a bottom plate 22 and a top plate 23, the pillar 21 is provided with two groups, the bottom plate 22 and the top plate 23 are fixedly connected to the bottom end and the top end of the pillar 21, the bottom plate 22 is connected with the base 1 by bolts, and the top plate 23 is connected with the beam 3 by bolts; the sliding balls 513 are fixedly connected to the two ends of the connecting plate 51 in the length direction respectively, the second stiffening plates 514 which are abutted to the sliding balls 513 are fixedly connected to the connecting plate 51, sliding grooves 211 in which sliding blocks are embedded are formed in the side walls of the two groups of support posts 21 respectively in the vertical direction, and the sliding grooves 211 penetrate through the top plate 23, so that the object placing assembly 5 can be placed in the opening 531 of the top plate 23, the object placing assembly 5 is placed at the top end of the lifting device 4, and meanwhile, when the object placing assembly 5 is lifted, the sliding balls 513 play a role of stabilizing the object placing assembly 5, and the object placing assembly 5 is not easy to shake; the side wall of the support column 21 positioned at the notch of the sliding groove 211 is fixedly connected with the horizontal limiting rod 212, the limiting rod 212 plays a role in limiting the object placing assembly 5, and the object placing assembly 5 is prevented from sliding to the bottom end of the sliding groove 211 in the process of installing the object placing assembly 5, so that the installation work of workers is facilitated.

Referring to fig. 1, a positioning block 7 is fixedly connected to the surface of the base 1, a positioning opening 71 is formed in the positioning block 7, the bottom end of the lifting device 4 is located in the positioning opening 71, and the side wall of the positioning opening 71 is abutted to the side wall of the lifting device 4, so that the shaking phenomenon of the lifting device 4 is reduced.

The embodiment of the utility model relates to an implementation principle of an assembled cold bending performance test device, which comprises the following steps:

when the test device of the embodiment is assembled, the supporting component 2 is respectively connected to the surface of the base 1 by bolts, the lifting device 4 is placed in the positioning opening 71 of the positioning block 7, the sliding balls 513 are respectively aligned with the opening 531 of the top plate 23, so that the object placing component 5 slides down to the top of the lifting device 4, and the connecting plate 51 and the adjusting plate 52 are connected by the bolts 512, so that the distance between the two groups of placing blocks 53 can be changed; the metal material to be tested is placed on the upper surfaces of the two groups of placing blocks 53, the lifting device 4 is started, and the object placing assembly 5 slides along the vertical upward direction.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (9)

1. The utility model provides an assembled cold bending performance test device, its characterized in that, including base (1), base (1) surface can be dismantled and be provided with supporting component (2), supporting component (2) top can be dismantled and be provided with crossbeam (3), hoisting device (4) have been placed on base (1) surface, hoisting device (4) are located crossbeam (3) below, put thing subassembly (5) have been placed on hoisting device (4) top, crossbeam (3) are provided with clamp plate piece (6) towards the lateral wall of base (1), clamp plate piece (6) are located directly over putting thing subassembly (5).

2. The assembled cold bending performance test device according to claim 1, wherein the object placing component (5) comprises a connecting plate (51), an adjusting plate (52) and a placing block (53), the adjusting plate (52) and the placing block (53) are respectively provided with two groups, the two groups of adjusting plates (52) are symmetrically arranged on the surface of the connecting plate (51), the two groups of placing blocks (53) are respectively arranged on the upper surfaces of the two groups of adjusting plates (52), the two groups of placing blocks (53) are respectively arranged at one ends, close to the two groups of adjusting plates (52), of the two groups of placing blocks (53), and openings (531) are respectively formed in opposite side walls of the two groups of placing blocks (53).

3. The assembled cold bending performance test device according to claim 2, wherein the connecting plate (51) is provided with a plurality of groups of first screw holes (521), the adjusting plate (52) is provided with a plurality of groups of second screw holes (511) corresponding to the first screw holes (521), and the adjusting plate (52) is connected with the connecting plate (51) through screws (512).

4. The assembled cold bending performance test device according to claim 2, wherein the surface of the adjusting plate (52) is provided with a first stiffening plate (522) abutting against the stacking block (53).

5. The assembly type cold bending performance test device according to claim 1, wherein the supporting component (2) comprises a supporting column (21), a bottom plate (22) and a top plate (23), the supporting column (21) is provided with two groups, the bottom plate (22) and the top plate (23) are respectively fixedly arranged at the bottom end and the top end of the supporting column (21), the bottom plate (22) is connected with the base (1) through bolts, and the top plate (23) is connected with the cross beam (3) through bolts.

6. The assembled cold bending performance test device according to claim 1, wherein sliding balls (513) are respectively arranged at two ends of the length direction of the connecting plate (51), sliding grooves (211) for embedding sliding blocks are respectively formed in the side walls of the two groups of support posts (21) along the vertical direction, and the sliding grooves (211) penetrate through the top plate (23).

7. The assembled cold bending performance test device according to claim 6, wherein the connecting plate (51) is fixedly provided with a second stiffening plate (514) which is abutted against the sliding ball (513).

8. The assembled cold bending performance test device according to claim 6, wherein a horizontal limit rod (212) is fixedly arranged on the side wall of the support column (21), and the limit rod (212) is positioned at a notch of the sliding groove (211).

9. The assembled cold bending performance test device according to claim 1, wherein a positioning block (7) is fixedly arranged on the surface of the base (1), a positioning opening (71) is formed in the positioning block (7), and the bottom end of the lifting device (4) is located in the positioning opening (71).

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