CN113984552A - High-end equipment is made with aluminum plate resistance to compression check out test set - Google Patents

Abstract

The invention relates to detection equipment, in particular to aluminum plate compression resistance detection equipment for manufacturing high-end equipment. The technical problem of the invention is that: the utility model provides a can strike aluminum plate automatically to the accurate high-end equipment that detects to aluminum plate resistance to compression is equipped with manufacturing and is used aluminum plate resistance to compression check out test set. The utility model provides a high-end equipment is made with aluminum plate resistance to compression check out test set, including: the first fixing column is arranged on one side of the upper part of the bottom plate; the knocking rod is arranged on the first fixing column in a sliding mode; the first linear spring is arranged between the first fixing column and the knocking rod; the feeding mechanism is arranged on the upper part of the bottom plate. The invention achieves the effects of automatically knocking the aluminum plate and accurately detecting the compression resistance of the aluminum plate; the marking pen is driven by the measuring column to move up and down, and the user can observe the moving distance of the marking pen on the scale plate, so that the pressure resistance of the aluminum plate can be known.

Description

High-end equipment is made with aluminum plate resistance to compression check out test set

Technical Field

The invention relates to detection equipment, in particular to aluminum plate compression resistance detection equipment for manufacturing high-end equipment.

Background

The aluminum plate is a rectangular plate rolled and processed by an aluminum ingot, and can be used for solar reflectors, architectural appearances, furniture and the like.

After aluminum plate accomplishes, people generally can detect aluminum plate's resistance to compression quality, and people generally are through placing aluminum plate on the workstation, strike aluminum plate through strikeing the pole, strike the completion back, observe aluminum plate to can detect aluminum plate's hard degree. Because artifical manual to aluminum plate detect, can't guarantee to strike the dynamics of pole unanimous to can't accurate go forward to detect aluminum plate's compressive degree.

Therefore, need design one kind can strike aluminum plate automatically to the accurate high-end equipment that detects to aluminum plate resistance to compression is equipped with manufacturing and is used aluminum plate resistance to compression check out test set.

Disclosure of Invention

In order to overcome the defects that the strength of a knocking rod cannot be ensured to be consistent when an aluminum plate is manually detected, and the compression resistance degree of the aluminum plate cannot be accurately detected, the invention has the technical problems that: the utility model provides a can strike aluminum plate automatically to the accurate high-end equipment that detects to aluminum plate resistance to compression is equipped with manufacturing and is used aluminum plate resistance to compression check out test set.

The purpose of the invention is realized by adopting the following technical scheme:

the utility model provides a high-end equipment is made with aluminum plate resistance to compression check out test set, including: the first fixing column is arranged on one side of the upper part of the bottom plate; the knocking rod is arranged on the first fixing column in a sliding mode; the first linear spring is arranged between the first fixing column and the knocking rod; the feeding mechanism is arranged on the upper part of the bottom plate; the fixing mechanism is arranged on the feeding mechanism.

Wherein, feeding mechanism is including: the motor is arranged on one side, close to the first fixing column, of the upper part of the bottom plate; the second fixing columns are symmetrically arranged on the upper part of the bottom plate; the screw rod is rotatably arranged between the second fixing columns on the two sides and is connected with an output shaft of the motor; the sliding rails are symmetrically arranged on the upper part of the bottom plate; the sliding block is arranged between the sliding rails in a sliding manner and is rotatably connected with the screw rod; the first supporting plate is arranged on the upper portion of the sliding block.

Wherein, fixed establishment is including: the first racks are symmetrically arranged on one side of the upper part of the bottom plate, which is close to the motor; the third fixing columns are symmetrically arranged on the upper part of the first supporting plate; the first rotating shaft is rotationally arranged on the third fixing column; the first fixing plates are all arranged on the first rotating shaft; the first gear and the first gear are both arranged on the first rotating shaft and meshed with the first rack.

Wherein, still including knocking the mechanism, knocking the mechanism including: the fourth fixing columns are symmetrically arranged at the positions, close to the first fixing columns, of the upper part of the bottom plate; the reels are rotatably arranged on the fourth fixing column; the second gears are arranged on the reel; the guide wheels are symmetrically arranged on the first fixing columns; the pull rope is arranged between the knocking rod and the winding wheel and bypasses the guide wheel; the second rack is arranged on one side of the first supporting plate; and the second rack and the third rack are respectively meshed with the second gear.

Wherein, still including detection mechanism, detection mechanism is including: the first wedge block is arranged on the upper part of the first supporting plate; the scale plate is arranged on one side of the middle of the upper part of the bottom plate; the fifth fixing column is arranged on the other side of the middle of the upper part of the bottom plate; the measuring column is arranged on the fifth fixing column in a sliding manner; the second wedge block is arranged on the measuring column; the marking pen is arranged on the measuring column and is in contact fit with the scale plate; the second linear spring is arranged between the measuring column and the fifth fixing column.

Wherein, still including unloading mechanism, unloading mechanism is including: the sixth fixing column is arranged at the position, far away from the first fixing column, of the upper part of the bottom plate; the seventh fixing column is symmetrically arranged on the sixth fixing column; the second rotating shaft is rotatably arranged between the seventh fixing columns; the blanking push plate is arranged on the second rotating shaft; and the torsion spring is arranged between the blanking push plate and the seventh fixed column and sleeved on the second rotating shaft.

Wherein, still including damper, damper is including: the second fixing plate is arranged on one side, close to the seventh fixing column, of the upper part of the bottom plate; the third linear spring is arranged on the second fixing plate; and the second supporting plate is arranged between the upper parts of the third linear springs.

Wherein, the number of the third linear springs is eight.

The invention has the beneficial effects that: 1. the invention achieves the effects of automatically knocking the aluminum plate and accurately detecting the compression resistance of the aluminum plate;

2. the second rack is meshed with the second gear, so that the winding wheel can take up and pay off the pull rope, and the knocking rod is driven to move up and down, and the effect of automatically knocking the aluminum plate is achieved;

3. the marking pen is driven by the measuring column to move up and down, and the user can observe the moving distance of the marking pen on the scale plate, so that the pressure resistance of the aluminum plate can be known.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 3 is a schematic perspective view of the fixing mechanism of the present invention.

Fig. 4 is a schematic perspective view of the knocking mechanism of the present invention.

Fig. 5 is an enlarged schematic perspective view of part a of the present invention.

Fig. 6 is a schematic perspective view of the detecting mechanism of the present invention.

Fig. 7 is an enlarged perspective view of part B of the present invention.

Fig. 8 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 9 is a schematic perspective view of the damping mechanism of the present invention.

Reference numbers in the drawings: 1: bottom plate, 2: first fixing column, 3: knock rod, 4: first linear spring, 5: feeding mechanism, 51: motor, 52: second fixing column, 53: screw rod, 54: slide rail, 55: slider, 56: first pallet, 6: fixing mechanism, 61: first rack, 62: third fixing column, 63: first fixing plate, 64: first rotating shaft, 65: first gear, 7: knocking mechanism, 71: fourth fixing column, 72: reel, 73: second gear, 74: guide wheel, 75: pull cord, 76: second rack, 77: third rack, 8: detection mechanism, 81: first wedge block, 82: second wedge block, 83: scale plate, 84: fifth fixing column, 85: measurement column, 86: marking pen, 87: second linear spring, 9: unloading mechanism, 91: sixth fixing column, 92: seventh fixing column, 93: second rotating shaft, 94: unloading push pedal, 95: torsion spring, 10: damper mechanism, 101: second fixing plate, 102: third linear spring, 103: a second pallet.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example 1

The utility model provides a high-end equipment is made with aluminum plate resistance to compression check out test set, as shown in figure 1, including bottom plate 1, first fixed column 2, strike pole 3, first linear spring 4, feeding mechanism 5 and fixed establishment 6, 1 upper portion left side of bottom plate is equipped with first fixed column 2, and the gliding style is equipped with strikes pole 3 on first fixed column 2, is connected with first linear spring 4 between first fixed column 2 and the strike pole 3, and 1 upper portion of bottom plate is equipped with feeding mechanism 5, is equipped with fixed establishment 6 on feeding mechanism 5.

When the user need carry out the resistance to compression to aluminum plate and detect, can use this equipment, at first the aluminum plate that will detect is put in fixed establishment 6, move fixed establishment 6 to the below of knocking pole 3 through feeding mechanism 5 afterwards, can be with knocking pole 3 and pushing down afterwards, knock aluminum plate, first linear spring 4 is compressed, the user can observe the degree that aluminum plate is knocked, come inspection aluminum plate's resistance to compression effect, when the user is not exerting force to knocking the board, under the reset action of first linear spring 4, knock pole 3 rebound and reset, the user can take off the aluminum plate that resistance to compression detection was accomplished in fixed establishment 6 this moment.

Example 2

On the basis of embodiment 1, as shown in fig. 2-3, the feeding mechanism 5 includes a motor 51, a second fixing column 52, a screw 53, a sliding rail 54, a sliding block 55 and a first supporting plate 56, the motor 51 is disposed on the left side of the upper portion of the bottom plate 1, the second fixing columns 52 are disposed on the upper portion of the bottom plate 1 in a bilateral symmetry manner, the screw 53 is rotatably disposed between the second fixing columns 52 on both sides, the screw 53 is connected with an output shaft of the motor 51, the sliding rail 54 is disposed on the upper portion of the bottom plate 1 in a front-back symmetry manner, the sliding block 55 is slidably disposed between the sliding rails 54, the sliding block 55 is rotatably connected with the screw 53, and the first supporting plate 56 is disposed on the upper portion of the sliding block 55.

The user can place the aluminum plate that needs detected on first layer board 56, fix through fixed establishment 6, starter motor 51 afterwards, motor 51 drives lead screw 53 and rotates, under the horizontal guiding effect of slide rail 54, make slider 55 remove to the right side along lead screw 53 to the right side under knocking rod 3, detect the completion back, the user can starter motor 51 once more, drive lead screw 53 through motor 51 and reverse, make slider 55 move along lead screw 53 left side and reset, when the user need not detect aluminum plate, close motor 51.

Fixing mechanism 6 is including first rack 61, third fixed column 62, first fixed plate 63, first pivot 64 and first gear 65, and the symmetry formula is equipped with first rack 61 around the left side of bottom plate 1 upper portion, and the symmetry formula is equipped with third fixed column 62 around the left side of first layer board 56 upper portion, and equal rotary type is equipped with first pivot 64 on the third fixed column 62, all is equipped with first fixed plate 63 and first gear 65 in the first pivot 64, first gear 65 and the meshing of first rack 61.

When first layer board 56 drives its upper part and moves to the left side, through first gear 65 and the meshing of first rack 61, make first pivot 64 drive first fixed plate 63 and upwards overturn, the user can take off the aluminum plate that detects the completion this moment, and place the aluminum plate that will carry out the detection on first layer board 56, and be located the below of the first fixed plate 63 of both sides, when first layer board 56 drives its upper part and moves to the right side, through first gear 65 and the meshing of first rack 61, make first pivot 64 drive first fixed plate 63 antiport, make first fixed plate 63 fix aluminum plate.

Example 3

In addition to embodiment 2, as shown in fig. 4 to 9, the striking mechanism 7 further includes a fourth fixing column 71, a winding wheel 72, a second gear 73, a guide wheel 74, a pull rope 75, a second gear 76 and a third gear rack 77, the fourth fixing column 71 is symmetrically arranged on the left side of the upper portion of the base plate 1 in the front-back direction, the winding wheels 72 are rotatably arranged on the fourth fixing column 71, the guide wheels 74 are symmetrically arranged on the first fixing column 2 in the front-back direction, the pull rope 75 is connected between the striking rod 3 and the winding wheel 72, the pull rope 75 bypasses the guide wheel 74, the two second gear racks 76 are arranged on the right side of the first supporting plate 56, the two third gear racks 77 are arranged on the left side of the first supporting plate 56, and the second gear racks 76 and the third gear racks 77 are respectively meshed with the second gear wheels 73.

When the first supporting plate 56 drives the second rack 76 and the third rack 77 to move towards the right side, the second rack 76 is meshed with the second gear 73, the reels 72 on the two sides rotate, the pull rope 75 is wound up, the knocking rod 3 is driven to move upwards through the pull rope 75, when the first supporting plate 56 moves to the position right below the knocking rod 3, the second rack 76 does not mesh with the second gear 73 any more at the moment, the reels 72 pay off the pull rope 75, the knocking rod 3 moves downwards to knock the aluminum rod, after knocking is completed, the third rack 77 is meshed with the second gear 73, the reels 72 wind up the pull rope 75 again, the knocking rod 3 moves upwards, the first supporting plate 56 drives the aluminum plate to move out towards the right side conveniently, and when the third rack 77 is not meshed with the second gear 73, the knocking rod 3 moves downwards to reset.

Still including detection mechanism 8, detection mechanism 8 is including first wedge 81, second wedge 82, scale plate 83, fifth fixed column 84, measure post 85, marking pen 86 and second linear spring 87, first layer board 56 upper portion right front side is equipped with first wedge 81, rear side is equipped with scale plate 83 in the middle of the bottom plate 1 upper portion, front side is equipped with fifth fixed column 84 in the middle of the bottom plate 1 upper portion, it is equipped with measurement post 85 to slide on the fifth fixed column 84, be connected with second linear spring 87 between measurement post 85 and the fifth fixed column 84, be equipped with marking pen 86 on the measurement post 85, marking pen 86 and scale plate 83 contact cooperation, be equipped with second wedge 82 on the measurement post 85.

When the first supporting plate 56 drives the first wedge block 81 to move to the right side to be in contact with the second wedge block 82, the first wedge block 81 is used for jacking up the measuring column 85 and the marking pen 86 of the second wedge block 82, the second linear spring 87 is compressed, when the middle position of the first supporting plate 56 is moved to the position right below the measuring column 85, at the moment, the first wedge block 81 is not in contact with the second wedge block 82 any more, under the reset action of the second linear spring 87, the measuring column 85 drives the marking pen 86 to move downwards for resetting, because the aluminum plate has a certain thickness, if the position where the marking pen 86 moves downwards for resetting is higher than the initial position of the scale plate 83, and the higher part is just the thickness of the aluminum plate, the aluminum plate is qualified, if the position where the marking pen 86 moves downwards for resetting is lower than the initial position, a certain recess is formed in the middle of the aluminum plate, the aluminum plate is unqualified, and a user can observe the position of the marking pen 86 on the scale plate 83, and judging whether the aluminum plate is qualified.

Still including unloading mechanism 9, unloading mechanism 9 is including sixth fixed column 91, seventh fixed column 92, second pivot 93, unloading push pedal 94 and torsion spring 95, 1 upper portion right side of bottom plate is equipped with sixth fixed column 91, the symmetry formula is equipped with seventh fixed column 92 around on the sixth fixed column 91, the rotary type is equipped with second pivot 93 between the seventh fixed column 92, be equipped with unloading push pedal 94 on the second pivot 93, both sides all are connected with torsion spring 95 with seventh fixed column 92 around the unloading push pedal 94, torsion spring 95 overlaps in second pivot 93.

First layer board 56 drives aluminum plate and moves to the right side to when contacting with unloading push pedal 94, aluminum plate will unload push pedal 94 jack-up that makes progress, torsion spring 95 takes place deformation, when unloading push pedal 94 does not contact with aluminum plate, under torsion spring 95's reset action, unloading push pedal 94 rotates downwards and resets, because sixth fixed column 91 supports unloading push pedal 94 left side, thereby unloading push pedal 94 right side can't upwards overturn, when first layer board 56 drives aluminum plate and moves to the left side, unloading push pedal 94 can support aluminum plate this moment, and push down aluminum plate from first layer board 56.

The damping mechanism 10 comprises a second fixing plate 101, a third linear spring 102 and a second supporting plate 103, the second fixing plate 101 is arranged on the right side of the upper portion of the bottom plate 1, the plurality of third linear springs 102 are arranged on the second fixing plate 101, and the second supporting plate 103 is connected between the upper portions of the third linear springs 102.

The blanking push plate 94 pushes the aluminum plate downwards to the position above the second supporting plate 103, the third linear spring 102 is compressed, a certain buffering effect can be achieved on the aluminum plate under the reset effect of the third linear spring 102, and when the aluminum plate on the second supporting plate 103 is taken down, the third linear spring 102 resets.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. Not all embodiments are exhaustive. All obvious changes and modifications which are obvious to the technical scheme of the invention are covered by the protection scope of the invention.

Claims (8)

1. The utility model provides a high-end equipment is made with aluminum plate resistance to compression check out test set, characterized by, including:

the device comprises a bottom plate (1), wherein a first fixing column (2) is arranged on one side of the upper part of the bottom plate (1);

the knocking rod (3) is arranged on the first fixing column (2) in a sliding manner;

the first linear spring (4), the first linear spring (4) is arranged between the first fixed column (2) and the knocking rod (3);

the feeding mechanism (5), the feeding mechanism (5) is arranged on the upper part of the bottom plate (1);

the fixing mechanism (6), the fixing mechanism (6) is arranged on the feeding mechanism (5).

2. The aluminum plate compression resistance detection device for manufacturing high-end equipment as claimed in claim 1, wherein the feeding mechanism (5) comprises:

the motor (51), the motor (51) is arranged on one side of the upper part of the bottom plate (1) close to the first fixing column (2);

the second fixing columns (52), the second fixing columns (52) are symmetrically arranged on the upper part of the bottom plate (1);

the screw rod (53) is rotatably arranged between the second fixing columns (52) on the two sides, and the screw rod (53) is connected with an output shaft of the motor (51);

the sliding rails (54), the sliding rails (54) are symmetrically arranged on the upper part of the bottom plate (1);

the sliding block (55), the sliding block (55) is arranged between the sliding rails (54) in a sliding manner, and the sliding block (55) is rotatably connected with the screw rod (53);

and the first supporting plate (56), wherein the first supporting plate (56) is arranged at the upper part of the sliding block (55).

3. The aluminum plate compression-resistance detection device for manufacturing high-end equipment as claimed in claim 2, wherein the fixing mechanism (6) comprises:

the first rack (61), the first rack (61) is symmetrically arranged on one side of the upper part of the bottom plate (1) close to the motor (51);

the third fixing columns (62), the third fixing columns (62) are symmetrically arranged on the upper part of the first supporting plate (56);

the first rotating shafts (64) are rotatably arranged on the third fixing columns (62);

the first fixing plates (63), the first fixing plates (63) are all arranged on the first rotating shaft (64);

the first gear (65) and the first gear (65) are arranged on the first rotating shaft (64), and the first gear (65) is meshed with the first rack (61).

4. The aluminum plate compression-resistant detection device for high-end equipment manufacturing according to claim 3, further comprising a knocking mechanism (7), wherein the knocking mechanism (7) comprises:

the fourth fixing columns (71), the fourth fixing columns (71) are symmetrically arranged at the positions, close to the first fixing columns (2), of the upper part of the bottom plate (1);

the reels (72), the reels (72) are all rotatably arranged on the fourth fixing column (71);

a second gear (73), the second gear (73) is arranged on the reel (72);

the guide wheel (74), the guide wheel (74) is symmetrically arranged on the first fixed column (2);

a pull rope (75), wherein the pull rope (75) is arranged between the knocking rod (3) and the reel (72), and the pull rope (75) bypasses the guide wheel (74);

a second rack (76), wherein the second rack (76) is arranged on one side of the first supporting plate (56);

and the third rack (77) is arranged on the other side of the first supporting plate (56), and the second rack (76) and the third rack (77) are respectively meshed with the second gear (73).

5. The aluminum plate compression resistance detection device for manufacturing the high-end equipment as claimed in claim 4, further comprising a detection mechanism (8), wherein the detection mechanism (8) comprises:

the first wedge-shaped block (81), the first wedge-shaped block (81) is arranged on the upper part of the first supporting plate (56);

the scale plate (83), the scale plate (83) is arranged on one side of the middle of the upper part of the bottom plate (1);

the fifth fixing column (84) is arranged on the other side of the middle of the upper part of the bottom plate (1);

the measuring column (85), the measuring column (85) is arranged on the fifth fixing column (84) in a sliding manner;

the second wedge block (82), the second wedge block (82) is set up on the measuring column (85);

the marking pen (86), the marking pen (86) is set up on the measuring column (85), the marking pen (86) contacts and cooperates with scale plate (83);

a second linear spring (87), the second linear spring (87) being arranged between the measuring column (85) and the fifth fixing column (84).

6. The aluminum plate compression resistance detection device for high-end equipment manufacturing according to claim 5, further comprising a blanking mechanism (9), wherein the blanking mechanism (9) comprises:

the sixth fixing column (91) is arranged at the position, far away from the first fixing column (2), of the upper part of the bottom plate (1);

the seventh fixing column (92), the seventh fixing column (92) is symmetrically arranged on the sixth fixing column (91);

the second rotating shaft (93), the second rotating shaft (93) is rotatably arranged between the seventh fixed columns (92);

the blanking push plate (94), the blanking push plate (94) is arranged on the second rotating shaft (93);

the torsion spring (95), the torsion spring (95) sets up between unloading push pedal (94) and seventh fixed column (92), and torsion spring (95) cover is on second pivot (93).

7. The aluminum plate compression resistance detection device for manufacturing the high-end equipment as claimed in claim 6, further comprising a shock absorption mechanism (10), wherein the shock absorption mechanism (10) comprises:

the second fixing plate (101), the second fixing plate (101) is arranged on one side, close to the seventh fixing column (92), of the upper part of the bottom plate (1);

the third linear spring (102), the third linear spring (102) is set in the second fixed plate (101);

and the second supporting plate (103), wherein the second supporting plate (103) is arranged between the upper parts of the third linear springs (102).

8. The aluminum plate compression resistance test apparatus for high-end equipment manufacture according to claim 7, wherein the number of the third linear springs (102) is eight.

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