CN210709520U - Dislocation self-falling alignment mechanism - Google Patents

Abstract

The utility model relates to the technical field of blanking, in particular to a dislocation self-falling alignment mechanism, which comprises a material guiding part and a supporting part, wherein one side of the supporting part is fixedly provided with the material guiding part, the material guiding part and the supporting part are internally provided with a blood sampling tube in a sliding way, the bottom of one side of the supporting part, which is close to the material guiding part, is fixedly provided with a power structure, the power structure is fixedly provided with a dislocation part, which is close to the inner side of the material guiding part, one side of the dislocation part is fixedly provided with a first tube position sensor, the other side of the dislocation part is fixedly provided with a second tube position sensor, the bottom of the other side of the material guiding part is movably connected with a fork shifting part, the fork shifting part penetrates through the material guiding part and is fixedly connected with the dislocation part, the surface of the material guiding part and one side below the dislocation part are fixedly provided with a first, the mechanism is high in conveying efficiency and worthy of popularization.

Description

Dislocation self-falling alignment mechanism

Technical Field

The utility model relates to a blanking technical field especially relates to a dislocation is from falling accurate mechanism.

Background

In material supply apparatus, this one side of work that can accurate efficient convey to the material still has certain shortcoming, and the most designs of current material supply technique are complicated, and inefficiency is difficult to satisfy the demand of carrying the material at ordinary times moreover, so, can carry the problem that the efficiency that also can improve the material simultaneously and transport becomes this technical staff and need solve by low-cost, in view of the above, we propose a dislocation from falling accurate mechanism and solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects of low conveying efficiency and complex design in the prior art and providing a dislocation self-falling alignment mechanism.

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

the utility model provides a dislocation is from falling accurate mechanism, includes guide spare and support piece, support piece one side fixed mounting has the guide spare, the guide spare with the inside slip of support piece has the heparin tube, one side bottom fixed mounting that support piece is close to the guide spare has the power structure, the inboard fixed mounting that the power structure is close to the guide spare has the dislocation piece, dislocation piece one side fixed mounting has first pipe position sensor, dislocation piece opposite side fixed mounting has the second pipe position sensor, guide spare opposite side bottom swing joint has the fork to dial the piece, the fork is dialled the piece and is run through the guide spare and is linked to each other with the dislocation piece is fixed, guide spare surface is located dislocation piece below one side fixed mounting has first sensor to the position, guide spare surface is located dislocation piece below opposite side fixed mounting and has the second sensor that targets in place.

Preferably, the material guiding part comprises a material guiding plate, a vertical groove, a transverse groove, a movable groove and a first mounting groove, the first mounting groove is formed in the bottom of the material guiding plate, the movable groove is formed in the surface of the material guiding plate and located above the first mounting groove, the transverse groove is formed in the surface of the material guiding plate and located above the movable groove, the vertical groove is formed in the surface of the material guiding plate and located at two ends of the transverse groove, and the vertical groove and the transverse groove form a groove body of a U-shaped structure.

Preferably, the support piece includes backup pad, end plate, guide way and resettlement groove, the backup pad with the stock guide is fixed to be linked to each other, the welding has the end plate of a body structure at backup pad both ends, the end plate with the backup pad is perpendicular, the resettlement groove has been seted up at the outside middle part that the end plate left the backup pad, mutually perpendicular's bar guide way, two have all been seted up to backup pad surface both sides the guide way with vertical groove mutually supports.

Preferably, guide structure is fixedly mounted on one side of the guide plate, the guide structure comprises a guide piece, a mounting plate, an empty groove and a guide groove, the guide piece and the mounting plate are welded and fixed into an integral structure vertically, the guide groove is formed in the middle of the guide piece, the empty groove is formed in one side of the mounting plate, the mounting plate is fixedly mounted on the surface of the guide plate, and the mounting plate is located above the transverse groove.

Preferably, the power structure includes motor, mount pad, gear and pinion rack, mount pad fixed mounting is in first mounting groove one side, the inside fixed mounting of mount pad has the motor, motor control output fixed mounting has the gear, gear one side meshing is connected with the pinion rack.

Preferably, the dislocation piece is divided including the dislocation and is dialled the board, transport groove and second mounting groove, the dislocation is divided and is dialled board one side bottom fixed mounting and have the second mounting groove, the pinion rack is divided and is allocated board one side in the dislocation through second mounting groove fixed mounting, the dislocation is divided and is allocated board upper end middle part and seted up and transport the groove.

Preferably, the fork shifting piece comprises a fork shifting plate, a supporting block, a connecting block, a placing groove and a fork shifting groove, wherein the supporting block of an integrated structure is welded at two ends of the fork shifting plate, the fork shifting groove is formed in one side of the supporting block, the connecting block of an integrated structure is welded in one side of the fork shifting plate, and the placing groove is formed in the middle of the connecting block.

The utility model provides a pair of dislocation is from falling accurate mechanism, beneficial effect lies in: this dislocation is from falling accurate mechanism when the board is dialled with the fork to the dislocation branch, because the dislocation is allocated the board upper end and is leveled only one and transport the groove, so stay the heparin tube of leading groove and vertical inslot portion and can distribute the support of board upper end under the dislocation and keep the position unchanged, when the heparin tube is carried the middle part, sensor and second pipe position sensor respond to through the second in place, then the electrode reversal, carry once more, so circulate, conveying efficiency is high, and need not lean on the heparin tube self gravity to reach with the help of external power, and is simple stable and energy-saving.

Drawings

Fig. 1 is a schematic structural view of a material guiding member of a dislocation self-falling alignment mechanism according to the present invention;

fig. 2 is a schematic structural view of a support member of a dislocation self-falling alignment mechanism according to the present invention;

fig. 3 is a schematic front view of a self-landing positioning mechanism according to the present invention;

fig. 4 is a schematic rear view of a self-landing positioning mechanism according to the present invention;

fig. 5 is a schematic top view of a dislocation self-landing aligning mechanism according to the present invention;

FIG. 6 is an enlarged schematic view of the structure at A in FIG. 3;

FIG. 7 is an enlarged view of the structure at B in FIG. 4;

fig. 8 is a schematic structural view of a fork shifting member of a dislocation self-falling alignment mechanism according to the present invention;

fig. 9 is a schematic structural view of a guiding structure of a dislocation self-falling alignment mechanism according to the present invention;

fig. 10 is a schematic structural diagram of a dislocation piece of a dislocation self-falling alignment mechanism according to the present invention.

In the figure: the device comprises a material guide member 1, a material guide plate 11, a vertical groove 12, a transverse groove 13, a movable groove 14, a first mounting groove 15, a support member 2, a support plate 21, an end plate 22, a guide groove 23, a placement groove 24, a fork shifting member 3, a fork shifting plate 31, a support block 32, a connecting block 33, a placement groove 34, a fork shifting groove 35, a guide structure 4, a guide sheet 41, a mounting plate 42, a hollow groove 43, a guide groove 44, a dislocation piece 5, a dislocation shifting plate 51, a conveying groove 52, a second mounting groove 53, a power structure 6, a motor 61, a mounting seat 62, a gear 63, a toothed plate 64, a first in-place sensor 71, a second in-place sensor 72, a first tube position sensor 81, a second tube position sensor 82 and a blood collection tube 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-10, a dislocation self-falling alignment mechanism comprises a material guiding member 1 and a supporting member 2, wherein the material guiding member 1 is fixedly installed on one side of the supporting member 2, a blood sampling tube 9 is arranged in the material guiding member 1 and the supporting member 2 in a sliding manner, the material guiding member 1 comprises a material guiding plate 11, a vertical groove 12, a transverse groove 13, a movable groove 14 and a first mounting groove 15, the bottom of the material guiding plate 11 is provided with the first mounting groove 15, the movable groove 14 is arranged on the surface of the material guiding plate 11 and positioned above the first mounting groove 15, the transverse groove 13 is arranged on the surface of the material guiding plate 11 and positioned above the movable groove 14, the vertical groove 12 is arranged on the surface of the material guiding plate 11 and positioned at two ends of the transverse groove 13, the vertical groove 12 and the transverse groove 13 form a U-shaped groove body, the supporting member 2 comprises a supporting plate 21, an end plate 22, a guide groove 23 and a placement groove, end plate 22 is perpendicular with backup pad 21, end plate 22 leaves backup pad 21's outside middle part and has seted up the mounting groove 24, mutually perpendicular's bar guide way 23 has all been seted up to backup pad 21 surface both sides, two guide ways 23 and vertical groove 12 mutually support, the both ends internal diameter of heparin tube 9 is different, the great one end of heparin tube 9 is located guide way 23, less one end is located vertical groove 12, guide way 23 and vertical groove 12 can carry out stable conveying with heparin tube 9, and heparin tube 9 evenly piles up in guide way 23 and vertical groove 12 under the action of gravity.

Guide structure 4 is fixedly mounted on one side of guide plate 11, guide structure 4 comprises guide pieces 41, a mounting plate 42, an empty groove 43 and a guide groove 44, guide pieces 41 and mounting plate 42 are vertically welded and fixed into an integral structure, the guide groove 44 is formed in the middle of guide pieces 41, the empty groove 43 is formed in one side of mounting plate 42, mounting plate 42 is fixedly mounted on the surface of guide plate 11, and mounting plate 42 is located above transverse groove 13

Support piece 2 is close to one side bottom fixed mounting of guide 1 has power structure 6, power structure 6 includes motor 61, mount pad 62, gear 63 and pinion rack 64, mount pad 62 fixed mounting in first mounting groove 15 one side, the inside fixed mounting of mount pad 62 has motor 61, motor 61 control output end fixed mounting has gear 63, gear 63 one side meshing is connected with pinion rack 64, when motor 61 drives gear 63 and rotates, gear 63 can drive pinion rack 64 translation.

Inner side fixed mounting that power structure 6 is close to guide 1 has dislocation piece 5, dislocation piece 5 one side fixed mounting has first pipe position sensor 81, dislocation piece 5 opposite side fixed mounting has second pipe position sensor 82, dislocation piece 5 is including the dislocation branch dial plate 51, transport groove 52 and second mounting groove 53, the dislocation branch is dialled plate 51 one side bottom fixed mounting and is had second mounting groove 53, pinion rack 64 is dialled plate 51 one side through second mounting groove 53 fixed mounting in the dislocation branch, the dislocation branch is dialled plate 51 upper end middle part and has been seted up transport groove 52, transport groove 52's internal diameter and the less one end external diameter phase-match of heparin tube 9.

Guide 1 another side bottom swing joint has fork shifting 3, fork shifting 3 runs through guide 1 and 5 fixed links to each other with dislocation piece, fork shifting 3 includes fork shifting plate 31, prop up piece 32, connecting block 33, place groove 34 and fork shifting 35, fork shifting plate 31 both ends all weld have a piece 32 of a body structure, it all has seted up fork shifting 35 to prop up piece 32 one side, the internal diameter and the great one end phase-match of heparin tube 9 of fork shifting 35, fork shifting plate 31 one side welding has connecting block 33 of a body structure, place groove 34 has been seted up at connecting block 33 middle part, connecting block 33 runs through movable tray 14 and is connected with second mounting groove 53, guide 1 surface and be located dislocation piece 5 below one side fixed mounting has first sensor 71 that targets in place, guide 1 surface and be located dislocation piece 5 below opposite side fixed mounting have the second sensor 72 that targets in place.

When the blood sampling tube 9 is positioned at the bottom of the vertical groove 12 and the placement groove 24 under the action of gravity, the fork shifting groove 35 and the conveying groove 52 are matched with two ends of the blood sampling tube 9 with different sizes at the same time, the second tube position sensor 82 and the first in-place sensor 71 sense the blood sampling tube 9, the motor 61 is started, the motor 61 drives the toothed plate 64 to move through the gear 63, the toothed plate 64 drives the dislocation branch shifting plate 51 to move when moving, the dislocation branch shifting plate 51 further drives the fork shifting plate 32 to move together, at the moment, the blood sampling tube 9 is placed in the fork shifting groove 35 and the conveying groove 52, when the dislocation branch shifting plate 51 and the fork shifting plate 32 drive the blood sampling tube 9 to move, because the upper end of the dislocation branch shifting plate 51 is flat and only provided with one conveying groove 52, the blood sampling tube 9 staying in the guide groove 23 and the vertical groove 12 can be kept at the same position under the support of the upper end of the dislocation branch shifting plate 51, when the blood sampling tube 8 is conveyed to, the sensing is carried out through the second in-position sensor 72 and the second pipe position sensor 82, then the electrode 61 is reversed, the conveying is carried out again, and the circulation is carried out, so that the conveying efficiency is high.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The dislocation self-falling alignment mechanism comprises a material guide piece (1) and a support piece (2), and is characterized in that the material guide piece (1) is fixedly mounted on one side of the support piece (2), a blood sampling tube (9) is arranged in the material guide piece (1) and the support piece (2) in a sliding manner, a power structure (6) is fixedly mounted at the bottom of one side of the support piece (2) close to the material guide piece (1), a dislocation piece (5) is fixedly mounted on the inner side of the power structure (6) close to the material guide piece (1), a first tube position sensor (81) is fixedly mounted on one side of the dislocation piece (5), a second tube position sensor (82) is fixedly mounted on the other side of the dislocation piece (5), a fork shifting piece (3) is movably connected to the bottom of the other side of the material guide piece (1), and the fork shifting piece (3) penetrates through the material guide piece (1) and is fixedly connected with, a first in-place sensor (71) is fixedly mounted on one side of the surface of the material guide piece (1) and below the dislocation piece (5), and a second in-place sensor (72) is fixedly mounted on the other side of the surface of the material guide piece (1) and below the dislocation piece (5).

2. The dislocation self-falling aligning mechanism according to claim 1, wherein the material guiding member (1) comprises a material guiding plate (11), a vertical groove (12), a transverse groove (13), a movable groove (14) and a first mounting groove (15), the first mounting groove (15) is formed in the bottom of the material guiding plate (11), the movable groove (14) is formed in the surface of the material guiding plate (11) and located above the first mounting groove (15), the transverse groove (13) is formed in the surface of the material guiding plate (11) and located above the movable groove (14), the vertical groove (12) is formed in the surface of the material guiding plate (11) and located at two ends of the transverse groove (13), and the vertical groove (12) and the transverse groove (13) form a groove body with a U-shaped structure.

3. The dislocation self-falling aligning mechanism according to claim 2, wherein the supporting member (2) comprises a supporting plate (21), an end plate (22), a guide groove (23) and a placing groove (24), the supporting plate (21) is fixedly connected with the material guiding plate (11), the end plate (22) with an integrated structure is welded at two ends of the supporting plate (21), the end plate (22) is perpendicular to the supporting plate (21), the placing groove (24) is formed in the middle of the outer side of the end plate (22) away from the supporting plate (21), the strip-shaped guide grooves (23) which are perpendicular to each other are formed in two sides of the surface of the supporting plate (21), and the two guide grooves (23) are matched with the vertical groove (12).

4. The dislocation self-falling aligning mechanism according to claim 2, wherein a guiding structure (4) is fixedly installed on one side of the material guiding plate (11), the guiding structure (4) comprises a guiding piece (41), a mounting plate (42), an empty slot (43) and a guiding slot (44), the guiding piece (41) and the mounting plate (42) are vertically welded and fixed into an integral structure, the guiding slot (44) is opened in the middle of the guiding piece (41), the empty slot (43) is opened on one side of the mounting plate (42), the mounting plate (42) is fixedly installed on the surface of the material guiding plate (11), and the mounting plate (42) is located above the transverse slot (13).

5. The misalignment self-landing alignment mechanism according to claim 2, wherein the power structure (6) comprises a motor (61), a mounting seat (62), a gear (63) and a toothed plate (64), the mounting seat (62) is fixedly mounted on one side of the first mounting groove (15), the motor (61) is fixedly mounted inside the mounting seat (62), the gear (63) is fixedly mounted at the control output end of the motor (61), and the toothed plate (64) is meshed and connected on one side of the gear (63).

6. The dislocation self-falling alignment mechanism according to claim 5, wherein the dislocation piece (5) comprises a dislocation distribution plate (51), a conveying groove (52) and a second mounting groove (53), the second mounting groove (53) is fixedly mounted at the bottom of one side of the dislocation distribution plate (51), the toothed plate (64) is fixedly mounted at one side of the dislocation distribution plate (51) through the second mounting groove (53), and the conveying groove (52) is formed in the middle of the upper end of the dislocation distribution plate (51).

7. The dislocation self-falling aligning mechanism according to claim 1, wherein the fork shifting member (3) comprises a fork shifting plate (31), a supporting block (32), a connecting block (33), a placing groove (34) and a fork shifting groove (35), the supporting block (32) of an integrated structure is welded at both ends of the fork shifting plate (31), the fork shifting groove (35) is formed at one side of the supporting block (32), the connecting block (33) of an integrated structure is welded at one side of the fork shifting plate (31), and the placing groove (34) is formed in the middle of the connecting block (33).

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