CN218591605U

CN218591605U - Bending die device for detecting gravity

Info

Publication number: CN218591605U
Application number: CN202222448951.8U
Authority: CN
Inventors: 窦永明; 王达芳
Original assignee: Wuxi Mingaoda Railway Fittings Co ltd
Current assignee: Wuxi Mingaoda Railway Fittings Co ltd
Priority date: 2022-09-15
Filing date: 2022-09-15
Publication date: 2023-03-10
Anticipated expiration: 2032-09-15

Abstract

The utility model discloses a detect mould device of bending of gravity, including base, guide pillar body, winding displacement board, dynamometry board, foil gage, pressed board, bottom mould, clamping screw, top layer mould, nut and the gear post of bending, the base top is provided with the guide pillar body, the base top is provided with the winding displacement board, the winding displacement groove has been seted up at the winding displacement board top, the winding displacement board top is provided with the dynamometry board, the through-wire hole has been seted up at the dynamometry board top, the dynamometry board top is provided with the foil gage, the dynamometry board top is provided with the pressed board, the pressed board top is provided with the bottom mould of bending. The utility model discloses a, base, foil gage, bottom bending die, top bending die, nut and gear post; the bending die has the advantages that gravity detection is realized, when the stress of the strain gauge is uneven, the bending die is unsuccessful and damaged, when the stress of the strain gauge is even, the strain gauge is qualified, the overall stability is good, and the cost performance is high.

Description

Bending die device for detecting gravity

Technical Field

The utility model relates to a mould technical field of bending, concretely relates to detect mould device of bending of gravity.

Background

The bending die device for detecting gravity has the advantages that the gravity detection is realized, when the stress of the strain gauge is uneven, the bending die is unsuccessful, the strain gauge is damaged, and when the stress of the strain gauge is even, the strain gauge represents qualified performance, the overall stability is good, and the cost performance is high.

The mould of bending that has now does not possess gravity detection, does not possess and detects the inhomogeneous mould of bending of foil gage atress, has the damage, and when the foil gage atress was even, it is qualified to represent, for example application number 202220147671.0 discloses a mould of bending of being convenient for clearance for the metal pipe, include work platform, supporting leg, movable block, telescopic link and add the piece of holding, the last supporting leg of installing of work platform, the last movable block that is provided with of work platform, be provided with first mould pole of bending on the movable block, be connected with the rolling disc on the first mould pole of bending, the last sliding tray that has seted up of work platform, install the second mould pole of bending on the sliding tray, be connected with the sliding block on the second mould pole of bending. This mould of bending convenient to clearance for tubular metal resonator is provided with the telescopic sliding block, slide on the mould pole of bending through the sliding block at the second, make the tubular metal resonator can place between the mould pole of bending of first mould pole and second, make the mould pole of bending of first mould pole and second fill the inside of tubular metal resonator, prevent that the tubular metal resonator from taking place extra deformation at the in-process of bending, keep the original structure of tubular metal resonator, provide the device's processing effect.

Therefore, the bending die device for detecting the gravity is invented to solve the problems that the bending die device is not provided with gravity detection, fails to be used for detecting that the strain gauge is stressed unevenly, has damage and is qualified when the strain gauge is stressed evenly.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a detect mould device of bending of gravity to do not possess the gravity detection in the solution technique, do not possess and detect the inhomogeneous mould of bending of foil gage atress unsuccessful, have the damage, when the foil gage atress is even, represent qualified problem.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a detect mould device of bending of gravity, includes base, guide pillar body, winding displacement board, pressure measuring plate, foil gage, receives the board, bottom mould of bending, clamping screw, top layer mould of bending, nut and gear post, the base top is provided with the guide pillar body, the base top is provided with the winding displacement board, the winding displacement groove has been seted up at the winding displacement board top, the winding displacement board top is provided with the pressure measuring plate, the lead-through hole has been seted up at the pressure measuring plate top, the pressure measuring plate top is provided with the foil gage, the pressure measuring plate top is provided with the pressure receiving plate, the pressure receiving plate top is provided with the bottom mould of bending, the inside clamping screw that is provided with of bottom mould of bending, clamping screw runs through in proper order in receiving plate, pressure measuring plate, winding displacement board and base, guide pillar body surface is provided with the top layer mould of bending, guide pillar body top is provided with the nut, the nut top is provided with the gear post, the nut top is provided with the stabilising plate, has solved and has not possessed gravity detection, does not possessed the inhomogeneous mould of bending of strain gage atress, has failed damage, when the foil gage was evenly stressed, represents qualified problem.

Preferably, the guide pillar body is provided with four, every two of the four guide pillar bodies form a group, the two groups of guide pillar bodies are symmetrical, and the guide pillar bodies are used for guiding up and guiding down.

Preferably, the outer surface of the wire arranging plate is provided with four first fixing holes, every two of the four first fixing holes are in one group, the two groups of first fixing holes are symmetrical, the outer surface of the wire arranging plate is provided with four first guide pillar holes, every two of the four first guide pillar holes are in one group, the two groups of first guide pillar holes are symmetrical, and wire arranging of the wire arranging plate is facilitated.

Preferably, the outer surface of the force measuring plate is provided with four second fixing holes, every two of the four second fixing holes are in one group, two groups of the second fixing holes are symmetrical, the outer surface of the force measuring plate is provided with four second guide pillar holes, every two of the four second guide pillar holes are in one group, two groups of the second guide pillar holes are symmetrical, and the force measuring plate bears the strain gauge.

Preferably, fifteen strain gauges are arranged, and fifteen strain gauges form a group, three groups of strain gauges are symmetrical, a pressure receiving plate is arranged at the top of each strain gauge, and the strain gauges measure gravity.

Preferably, the top layer bending die is provided with a fixed disk at the top, a fixing screw is arranged in the fixed disk, and the fixed disk of the top layer bending die is convenient for connecting the outside.

Preferably, the number of the nuts is four, every two of the four nuts form a group, the two groups of the nuts are symmetrical, and the nuts prevent the top layer bending die from being separated from the guide pillar body.

Preferably, the gear post is provided with four, four every two of gear post are a set of, two sets of the gear post symmetry, gear post stable plate.

In the technical scheme, the utility model provides a technological effect and advantage: the device has the technical effects that the device comprises a base, a strain gauge, a bottom layer bending die, a top layer bending die, a nut and a gear column; the advantage lies in, has realized having gravity and has detected, and when uneven through foil gage atress, the mould of bending is unsuccessful, has the damage, and when the foil gage atress was even, it was qualified to represent, and overall stability is better, advantage that the price/performance ratio is high.

Drawings

Fig. 1 is a schematic view of the overall structure of the base of the present invention;

fig. 2 is a schematic structural view of the strain gauge of the present invention;

fig. 3 is a schematic structural view of the wire arranging plate of the present invention;

fig. 4 is a schematic structural diagram of the gear column of the present invention.

Description of the reference numerals:

1. a base; 2. a guide post body; 3. a wire arranging plate; 301. a wire arrangement groove; 302. a first fixing hole; 303. a first guide post hole; 4. a force measuring plate; 401. a through hole; 402. a second fixing hole; 403. a second guide post hole; 5. a strain gauge; 6. a pressure receiving plate; 7. a bottom layer bending die; 8. fixing the screw rod; 9. a top layer bending die; 10. fixing the disc; 11. a fixing screw; 12. a nut; 13. a gear post; 14. and (7) stabilizing the plate.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

The utility model provides a bending die device for detecting gravity as shown in figures 1-4, which comprises a base 1, a guide pillar body 2, a wire arranging plate 3, a force measuring plate 4, a strain gauge 5, a pressure receiving plate 6, a bottom layer bending die 7, a fixing screw 8, a top layer bending die 9, a nut 12 and a gear column 13, wherein the top of the base 1 is provided with the guide pillar body 2, the top of the base 1 is provided with the wire arranging plate 3, the top of the wire arranging plate 3 is provided with a wire arranging groove 301, the top of the wire arranging plate 3 is provided with the force measuring plate 4, the top of the force measuring plate 4 is provided with a through hole 401, the top of the force measuring plate 4 is provided with the strain gauge 5, the top of the force measuring plate 4 is provided with the pressure receiving plate 6, the top of the pressure receiving plate 6 is provided with the bottom layer bending die 7, the fixing screw 8 is arranged inside the bottom layer bending die 7, the fixing screw 8 sequentially penetrates through the pressure receiving plate 6, the force measuring plate 4, the wire arranging plate 3 and the base 1, the outer surface of the guide pillar body 2 is provided with the top layer bending die 9, the nut 12 is provided with the nut 12, the gear column 13, the top of the nut 12 is provided with a stabilizing plate 14,

the four-core-type strain gauge comprises four guide pillar bodies 2, every two of the four guide pillar bodies 2 are a group, two groups of guide pillar bodies 2 are symmetrical, first fixing holes 302 are formed in the outer surface of a flat cable panel 3, four first fixing holes 302 are formed in the first fixing holes 302, every two of the four first fixing holes 302 are a group, two groups of first fixing holes 302 are symmetrical, first guide pillar holes 303 are formed in the outer surface of the flat cable panel 3, four first guide pillar holes 303 are formed in the first guide pillar holes 303, every two of the four first guide pillar holes 303 are a group, two groups of first guide pillar holes 303 are symmetrical, second fixing holes 402 are formed in the outer surface of a force measuring plate 4, four second guide pillar holes 402 are formed in the second guide pillar holes 403, four second guide pillar holes 403 are a group, two groups of second guide pillar holes are symmetrical, strain gauges 5 are fifteen, five strain gauges 5 are a group, strain gauges 5 are symmetrical, the top of strain gauges 5 is provided with 6, four second guide pillar holes 403 are provided with a group, two groups of second set of strain gauges 403, two sets of strain gauges 12 are symmetrical nuts, two sets of nuts are provided with four symmetrical nuts, two sets of nuts 13 nuts, two sets of nuts are provided with four symmetrical nuts, two sets of nuts 12, four nuts are provided with four symmetrical nuts 12, four symmetrical nuts and four nuts are provided with four nuts 12, two sets of nuts 12, four symmetrical nuts and four nuts, four nuts 12 nuts are provided with four symmetrical nuts.

This practical theory of operation:

referring to the attached drawings 1-4 of the specification, when the device is used, a fixed disc 10 and a fixed screw 11 of a top layer bending die 9 are used for being connected with external equipment, the top layer bending die 9 moves up and down through a guide pillar body 2, when a bottom layer bending die 7 and the top layer bending die 9 are closed, acting force is applied to a strain gauge 5 through a pressure plate 6, when fifteen strain gauges 5 are unevenly stressed, namely the bottom layer bending die 7 and the top layer bending die 9 are not matched with corners, the bending die fails and is damaged, when the strain gauge 5 is evenly stressed, namely the bottom layer bending die 7 and the top layer bending die 9 are matched with corners, the representative is qualified, a nut 12, a gear column 13 and a stabilizing plate 14 are used for guaranteeing the stability of the guide pillar body 2, the intersection of the guide pillar body 2 and the nut 12 is in threaded connection, the gravity detection is realized, the overall stability is better, and the cost performance is high.

Claims

1. The utility model provides a detect gravity's mould device of bending, includes base (1), guide pillar body (2), winding displacement board (3), dynamometry board (4), foil gage (5), receives pressure plate (6), bottom mould (7), clamping screw (8), top layer mould (9), nut (12) and gear post (13) of bending, its characterized in that: the wire arranging plate is characterized in that a guide pillar body (2) is arranged on the top of the base (1), a wire arranging plate (3) is arranged on the top of the wire arranging plate (3), a wire arranging groove (301) is formed in the top of the wire arranging plate (3), a force measuring plate (4) is arranged on the top of the wire arranging plate (3), a through hole (401) is formed in the top of the force measuring plate (4), a strain gauge (5) is arranged on the top of the force measuring plate (4), a bottom bending die (7) is arranged on the top of the force measuring plate (6), a fixing screw (8) is arranged inside the bottom bending die (7), the fixing screw (8) sequentially penetrates through the force measuring plate (6), the force measuring plate (4), the wire arranging plate (3) and the base (1), a top layer bending die (9) is arranged on the outer surface of the guide pillar body (2), a nut (12) is arranged on the top of the guide pillar body (2), a gear column (13) is arranged on the top of the nut (12), and a stabilizing plate (14) is arranged on the top of the nut (12).

2. The bending die device for detecting gravity according to claim 1, wherein: the four guide post bodies (2) are arranged, every two of the four guide post bodies (2) form a group, and the two groups of guide post bodies (2) are symmetrical.

3. The bending die device for detecting gravity according to claim 1, wherein: first fixed orifices (302) have been seted up to winding displacement board (3) surface, four have been seted up in first fixed orifices (302) four, four every two of first fixed orifices (302) are a set of, two sets of first fixed orifices (302) symmetry, first guide post hole (303) have been seted up to winding displacement board (3) surface, four have been seted up in first guide post hole (303) every two of first guide post hole (303) are a set of, two sets of first guide post hole (303) symmetry.

4. A bending die apparatus for detecting gravity according to claim 1, wherein: the outer surface of the force measuring plate (4) is provided with second fixing holes (402), the number of the second fixing holes (402) is four, every two of the second fixing holes (402) are in a group, the two groups of the second fixing holes (402) are symmetrical, the outer surface of the force measuring plate (4) is provided with second guide pillar holes (403), the number of the second guide pillar holes (403) is four, every two of the second guide pillar holes (403) are in a group, and the two groups of the second guide pillar holes (403) are symmetrical.

5. The bending die device for detecting gravity according to claim 1, wherein: fifteen strain gauges (5) are arranged, fifteen strain gauges (5) are in a group, three groups of strain gauges (5) are symmetrical, and a compression plate (6) is arranged at the top of each strain gauge (5).

6. The bending die device for detecting gravity according to claim 1, wherein: the top layer bending die (9) is provided with a fixed disc (10) at the top, and a fixing screw (11) is arranged inside the fixed disc (10).

7. A bending die apparatus for detecting gravity according to claim 1, wherein: the nut (12) is provided with four, four every two of nut (12) are a set of, two sets of nut (12) symmetry.

8. The bending die device for detecting gravity according to claim 1, wherein: the gear columns (13) are four, every two gear columns (13) are a group, and the two gear columns (13) are symmetrical.