CN210160706U - Multi-disc magnetic shoe concatenation preassemble positioning mechanism - Google Patents

Abstract

The utility model discloses a multi-disc magnetic shoe concatenation positioning mechanism that adorns in advance, including first cushion cap board, second cushion cap board and support frame, the vertical second hydraulic stem of installing of output of second pneumatic cylinder, the inside vertical first spring of installing of first sleeve, the top horizontal mounting of first metal pole and second hydraulic stem has the second cushion cap board, the vertical first hydraulic stem of installing of output of first pneumatic cylinder, the intermediate position department horizontal mounting on third cushion cap board top has first motor, electric putter keeps away from the vertical first fixed slot of installing of one end of first motor, the second spring is close to the vertical second fixed plate of installing of one end of first motor, the equal vertical third pneumatic cylinder of installing in both ends on the inboard second cushion cap board top of first pneumatic cylinder. This multi-disc magnetic shoe concatenation positioning mechanism of preassembleing places the magnetic shoe piece in first fixed slot, and the not unidimensional magnetic shoe piece of second fixed plate and second spring chucking.

Description

Multi-disc magnetic shoe concatenation preassemble positioning mechanism

Technical Field

The utility model relates to a magnetic shoe concatenation technical field specifically is a multi-disc magnetic shoe concatenation positioning mechanism that adorns in advance.

Background

The magnetic shoe product comprises a shell and four magnetic shoes which are spliced into a cylinder shape and attached to the surface of the inner wall of the shell, when the magnetic shoe product is assembled, the four magnetic shoes are firstly positioned into the cylinder shape, then glue is dispensed on the outer surface of the magnetic shoes, the shell is sleeved outside the magnetic shoes, then the glue is heated to generate viscosity, and then cooling is carried out, and finally various detections are carried out to ensure that the glue can leave a factory after being qualified, so that a plurality of magnetic shoes are required to be spliced and preassembled to be positioned on the market.

However, most of the multi-magnetic tile splicing, preassembling and positioning mechanisms in the current market need manual feeding, most of the multi-magnetic tile splicing, preassembling and positioning mechanisms in the current market are not convenient for automatically splicing the magnetic tiles into a ring, and most of the multi-magnetic tile splicing, preassembling and positioning mechanisms in the current market are not suitable for magnetic tiles with different sizes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-disc magnetic shoe concatenation positioning mechanism that adorns in advance to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a multi-magnetic shoe splicing pre-assembly positioning mechanism comprises a first bearing plate, a second bearing plate and a support frame, wherein universal wheels are mounted at two ends of the bottom end of the first bearing plate, a second hydraulic cylinder is vertically mounted at the central position of the top end of the first bearing plate, a second hydraulic rod is vertically mounted at the output end of the second hydraulic cylinder, first sleeves are uniformly and vertically mounted at the top ends of the first bearing plate on the periphery of the second hydraulic cylinder, a first spring is vertically mounted in each first sleeve, a first metal rod penetrating through the top end of each first sleeve is vertically mounted at the top end of each first spring, the top ends of the first metal rod and the second hydraulic rod are horizontally mounted with the second bearing plate, first hydraulic cylinders are vertically mounted at two ends of the top end of the second bearing plate, a first hydraulic rod is vertically mounted at the output end of each first hydraulic cylinder, and a third bearing plate is horizontally mounted at the top end of each first hydraulic rod, a first motor is horizontally arranged at the middle position of the top end of the third bearing plate, an electric push rod is horizontally arranged at the output end of the first motor, a first fixed groove is vertically arranged at one end, far away from the first motor, of the electric push rod, a second spring is uniformly and horizontally arranged on the inner wall, far away from the first motor, of the first fixed groove, a second fixed plate is vertically arranged at one end, close to the first motor, of the second spring, a third hydraulic cylinder is vertically arranged at two ends of the top end of the second bearing plate on the inner side of the first hydraulic cylinder, a third hydraulic rod is vertically arranged at the output end of the third hydraulic cylinder, a second fixed groove is horizontally arranged at the top end of the third hydraulic rod, positioning grooves are respectively arranged at the central positions of the top end and the bottom end of the second fixed groove, second sleeves are uniformly and horizontally arranged on the inner walls on two sides of the second fixed groove, the utility model discloses a support frame, including first fixed plate, second fixed slot, first bearing board, second motor, third spring, connecting rod, second spring, first fixed plate, second motor output end, the telescopic second metal pole of second that runs through is installed to the one end that the third spring is close to the constant head tank, and the one end horizontal installation that the second metal pole is close to the constant head tank has first fixed plate, first fixed plate is kept away from constant head tank one side and is installed the connecting rod that runs through the second fixed slot, and the second bearing board top of second fixed slot one side installs the support frame, the one end intermediate position department that the support frame top is close to the second fixed slot is vertical installs the second motor.

Preferably, the universal wheels are provided with two groups, each group of universal wheels are provided with two universal wheels, and the universal wheels are internally provided with braking mechanisms.

Preferably, the first metal rod forms a telescopic mechanism through the first spring and the first sleeve, and four groups of the first metal rod, the first spring and the first sleeve are arranged.

Preferably, the first fixing plate and the second metal rod form a telescopic mechanism through the third spring and the second sleeve, the first fixing plate, the second metal rod, the third spring and the second sleeve are provided with two groups, each group of second metal rod, the second sleeve and the third spring is provided with two groups, and the first fixing plate, the second metal rod, the third spring and the second sleeve are symmetrically arranged about a central axis of the second fixing groove.

Preferably, the second fixing plate forms a telescopic mechanism between the second spring and the first fixing groove.

Preferably, the baffle strips are four, and the baffle strips are arranged on the positioning rod at equal angles.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the magnetic tile sheets are placed in the first fixing groove through the first fixing groove, the second fixing plate and the second spring, and the magnetic tile sheets with different sizes are automatically clamped under the action of the second spring by extruding the second fixing plate;

(2) the first motor, the first hydraulic cylinder, the electric push rod, the first fixing groove, the positioning rod and the first hydraulic rod are installed to be contracted, the first hydraulic rod and the third bearing plate are started, the electric push rod is driven to extend under the action of the first motor, the electric push rod drives the first fixing groove and the magnetic tile sheet to move to the outer side of the positioning rod, the magnetic tile sheet is automatically adsorbed on the positioning rod under the action of magnetic force, the first hydraulic rod is driven to be contracted under the action of the first hydraulic cylinder, the third bearing plate and the first fixing groove are driven by the first hydraulic rod to move downwards together, and therefore the magnetic tile sheet is separated from the first fixing groove, and automatic feeding is facilitated;

(3) through the installed third hydraulic cylinder, the third hydraulic rod, the second fixing groove, the first fixing plate, the positioning rod, the first fixing plate, the third spring, the second motor and the rotating shaft, when the magnetic tile is loaded, the third hydraulic cylinder is started to drive the third hydraulic rod to extend, the third hydraulic rod drives the second fixing groove to move upwards so that the first fixing plate is contacted with the positioning rod, the first fixing plate can be contracted in the process of extruding with the positioning rod through the third spring, the magnetic tile is supported at the bottom end of the magnetic tile, when the preassembling of the magnetic tiles on two sides is completed, the second motor is started to drive the rotating shaft to rotate, the rotating shaft drives the positioning rod to rotate 90 degrees, and therefore the preassembling of the four magnetic tiles is convenient to be in place and spliced into an annular shape;

(4) through second pneumatic cylinder, second hydraulic cylinder, second cushion cap board, first spring and the first metal pole of installation, when needs and the cooperation of not magnetic shoe piece output platform of co-altitude, start the second hydraulic cylinder and drive the second hydraulic cylinder flexible, the second hydraulic cylinder drives the second cushion cap board and reciprocates, thereby it uses with the cooperation of not magnetic shoe piece output platform of co-altitude to drive first metal pole and reciprocate under the elastic force effect of first spring.

Drawings

FIG. 1 is a front view of the cross-sectional structure of the present invention;

FIG. 2 is a schematic top view of the retainer plate strip and the positioning rod of the present invention;

fig. 3 is a schematic top view of the first fixing plate of the present invention;

fig. 4 is a schematic top view of the second fixing plate of the present invention;

FIG. 5 is an enlarged view of the portion A of FIG. 1 according to the present invention;

fig. 6 is an enlarged schematic view of a portion B in fig. 1 according to the present invention.

In the figure: 1. a baffle plate strip; 2. an electric push rod; 3. a first motor; 4. a first hydraulic lever; 5. a first hydraulic cylinder; 6. a first sleeve; 7. a first spring; 8. a universal wheel; 9. positioning a groove; 10. a second hydraulic rod; 11. a second hydraulic cylinder; 12. a first deck plate; 13. a first metal rod; 14. a second deck plate; 15. a third hydraulic cylinder; 16. a third deck plate; 17. positioning a rod; 18. a support frame; 19. a rotating shaft; 20. a second motor; 21. a first fixing plate; 22. a second fixing plate; 23. a first fixing groove; 24. a second spring; 25. a second fixing groove; 26. a second sleeve; 27. a second metal rod; 28. a third hydraulic lever; 29. a third spring; 30. a connecting rod.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides an embodiment: a multi-magnetic tile splicing pre-assembly positioning mechanism comprises a first bearing plate 12, a second bearing plate 14 and a support frame 18, wherein universal wheels 8 are arranged at two ends of the bottom end of the first bearing plate 12, two groups of universal wheels 8 are arranged, two universal wheels 8 are arranged in each group, a brake mechanism is arranged inside each universal wheel 8 and is convenient to move, a second hydraulic cylinder 11 is vertically arranged at the central position of the top end of the first bearing plate 12, the type of the second hydraulic cylinder 11 can be a J64RT2UNIVER telescopic cylinder, a second hydraulic rod 10 is vertically arranged at the output end of the second hydraulic cylinder 11, first sleeves 6 are uniformly and vertically arranged at the top ends of the first bearing plates 12 on the periphery of the second hydraulic cylinder 11, first springs 7 are vertically arranged inside the first sleeves 6, first metal rods 13 penetrating through the top ends of the first sleeves 6 are vertically arranged at the top ends of the first springs 7, the first metal rods 13 form a telescopic mechanism through the first springs 7 and the first sleeves 6, and the first metal rod 13, the first spring 7 and the first sleeve 6 are all provided with four groups, which is convenient for keeping the stability of the second bearing plate 14, the top ends of the first metal rod 13 and the second hydraulic rod 10 are horizontally provided with the second bearing plate 14, two ends of the top end of the second bearing plate 14 are vertically provided with the first hydraulic cylinder 5, the model of the first hydraulic cylinder 5 can be a CLRG-506 hydraulic cylinder, the output end of the first hydraulic cylinder 5 is vertically provided with the first hydraulic rod 4, the top end of the first hydraulic rod 4 is horizontally provided with the third bearing plate 16, the middle position of the top end of the third bearing plate 16 is horizontally provided with the first motor 3, the model of the first motor 3 can be a Y112M-6 motor, the output end of the first motor 3 is horizontally provided with the electric push rod 2, one end of the electric push rod 2 far away from the first motor 3 is vertically provided with the first fixing groove 23, and the inner wall of one side of the first fixing groove 23 far away from the first motor 3 is uniformly and horizontally provided with, a second fixing plate 22 is vertically installed at one end of a second spring 24 close to the first motor 3, a telescopic mechanism is formed between the second spring 24 and a first fixing groove 23 on the second fixing plate 22, the second fixing plate is convenient to be suitable for magnetic tiles with different sizes, a third hydraulic cylinder 15 is vertically installed at two ends of the top end of a second bearing plate 14 on the inner side of a first hydraulic cylinder 5, the type of the third hydraulic cylinder 15 can be PY497, a third hydraulic rod 28 is vertically installed at the output end of the third hydraulic cylinder 15, a second fixing groove 25 is horizontally installed at the top end of the third hydraulic rod 28, positioning grooves 9 are respectively arranged at the central positions of the top end and the bottom end of the second fixing groove 25, second sleeves 26 are evenly and horizontally installed on the inner walls of two sides of the second fixing groove 25, a third spring 29 is horizontally installed in the second sleeves 26, a second metal rod 27 penetrating through the second sleeves 26 is installed at one end of the third spring 29 close to the, a first fixing plate 21 is horizontally installed at one end, close to the positioning groove 9, of the second metal rod 27, two groups of first fixing plates 21 and two groups of second metal rods 27 are arranged between the first fixing plate 21 and the second sleeve 26 through a telescopic mechanism formed by a third spring 29 and the second sleeve 26, two groups of second metal rods 27, two groups of second sleeve 26 and two groups of third spring 29 are arranged in each group, meanwhile, the first fixing plate 21, the second metal rod 27, the third spring 29 and the second sleeve 26 in each group are symmetrically arranged around the central axis of the second fixing groove 25, so that the magnetic tiles with different sizes are convenient to adapt to, a connecting rod 30 penetrating through the second fixing groove 25 is installed at one side, far away from the positioning groove 9, of the first fixing plate 21, a support frame 18 is installed at the top end of the second bearing plate 14 at one side of the second fixing groove 25, a second motor 20 is vertically installed at the top end, close to the middle position of one end of the second fixing groove 25, the model of this second motor 20 can be Y90S-6 motor, and the vertical pivot 19 that runs through the support frame 18 top of installing of second motor 20 output, and the vertical locating lever 17 of installing in the bottom of pivot 19, and the upper end of locating lever 17 lateral wall is all even vertical to be installed baffle strip 1, and baffle strip 1 is provided with four, and the impartial angle setting of baffle strip 1 is on locating lever 17, is convenient for fix four magnetic tiles.

The working principle is as follows: when the multi-magnetic tile splicing and pre-installing positioning mechanism is used, the multi-magnetic tile splicing and pre-installing positioning mechanism is moved to a proper position through the universal wheel 8, then magnetic tiles are placed inside the first fixing groove 23, magnetic tiles with different sizes are automatically clamped under the action of the second spring 24 by extruding the second fixing plate 22, then an external power supply is switched on, the first motor 3 and the first hydraulic cylinder 5 are started, the electric push rod 2 is driven to extend under the action of the first motor 3, the electric push rod 2 drives the first fixing groove 23 and the magnetic tiles to move to the outer side of the positioning rod 17, the magnetic tiles are automatically adsorbed on the positioning rod 17 under the action of magnetic force, the first hydraulic rod 4 is driven to contract under the action of the first hydraulic cylinder 5, the first hydraulic rod 4 drives the third bearing plate 16 and the first fixing groove 23 to move downwards together so that the magnetic tiles are separated from the first fixing groove 23, and automatic feeding is facilitated, when the magnetic tile is fed, the third hydraulic cylinder 15 is started to drive the third hydraulic rod 28 to extend, the third hydraulic rod 28 drives the second fixing groove 25 to move upwards so as to enable the first fixing plate 21 and the positioning rod 17 to be contacted, so that the first fixing plate 21 can be contracted in the process of being extruded with the positioning rod 17 through the third spring 29, thereby supporting the magnetic tiles at the bottom ends of the magnetic tiles, starting the second motor 20 to drive the rotating shaft 19 to rotate after the preassembling of the magnetic tiles at the two sides is finished, driving the positioning rod 17 to rotate for 90 degrees by the rotating shaft 19, thereby being convenient for pre-assembling the four magnetic tile sheets in place and splicing the four magnetic tile sheets into a ring shape, when the four magnetic tile sheets are required to be matched with the magnetic tile sheet output platforms with different heights, the second hydraulic cylinder 11 is started to drive the second hydraulic rod 10 to extend and contract, the second hydraulic rod 10 drives the second bearing plate 14 to move up and down, the first metal rod 13 is driven to move up and down under the action of the elastic force of the first spring 7 so as to be matched with magnetic tile output platforms with different heights for use.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a multi-disc magnetic shoe concatenation is loading and positioning mechanism in advance, includes first cushion cap board (12), second cushion cap board (14) and support frame (18), its characterized in that: universal wheels (8) are mounted at two ends of the bottom end of the first bearing plate (12), a second hydraulic cylinder (11) is vertically mounted at the central position of the top end of the first bearing plate (12), a second hydraulic rod (10) is vertically mounted at the output end of the second hydraulic cylinder (11), first sleeves (6) are uniformly and vertically mounted at the top ends of the first bearing plates (12) on the periphery of the second hydraulic cylinder (11), a first spring (7) is vertically mounted inside each first sleeve (6), a first metal rod (13) penetrating through the top end of each first sleeve (6) is vertically mounted at the top end of each first spring (7), a second bearing plate (14) is horizontally mounted at the top ends of the first metal rods (13) and the second hydraulic rod (10), first hydraulic cylinders (5) are vertically mounted at two ends of the top end of each second bearing plate (14), and first hydraulic rods (4) are vertically mounted at the output ends of the first hydraulic cylinders (5), a third bearing plate (16) is horizontally arranged at the top end of the first hydraulic rod (4), a first motor (3) is horizontally arranged at the middle position of the top end of the third bearing plate (16), an electric push rod (2) is horizontally arranged at the output end of the first motor (3), a first fixing groove (23) is vertically arranged at one end, far away from the first motor (3), of the electric push rod (2), a second spring (24) is uniformly and horizontally arranged on the inner wall of one side, far away from the first motor (3), of the first fixing groove (23), a second fixing plate (22) is vertically arranged at one end, close to the first motor (3), of the second spring (24), a third hydraulic cylinder (15) is vertically arranged at both ends of the top end of the second bearing plate (14) on the inner side of the first hydraulic cylinder (5), and a third hydraulic rod (28) is vertically arranged at the output end of the third hydraulic cylinder (15), a second fixing groove (25) is horizontally arranged at the top end of the third hydraulic rod (28), positioning grooves (9) are formed in the center positions of the top end and the bottom end of the second fixing groove (25), second sleeves (26) are uniformly and horizontally arranged on the inner walls of the two sides of the second fixing groove (25), a third spring (29) is horizontally arranged in each second sleeve (26), a second metal rod (27) penetrating through each second sleeve (26) is arranged at one end, close to each positioning groove (9), of each third spring (29), a first fixing plate (21) is horizontally arranged at one end, close to each positioning groove (9), of each second metal rod (27), a connecting rod (30) penetrating through each second fixing groove (25) is arranged at one side, far away from each positioning groove (9), of each first fixing plate (21), a platen supporting frame (18) is arranged at the top end of each second platen (14) at one side of each second fixing groove (25), support frame (18) top is close to the one end intermediate position department vertical second motor (20) of installing of second fixed slot (25), and the vertical pivot (19) of running through support frame (18) top of installing of second motor (20) output, the vertical locating lever (17) of installing in bottom of pivot (19), and the upper end of locating lever (17) lateral wall all evenly vertically installs division board strip (1).

2. The mechanism of claim 1, wherein the mechanism comprises: the universal wheels (8) are arranged in two groups, two universal wheels (8) are arranged in each group, and a braking mechanism is arranged inside each universal wheel (8).

3. The mechanism of claim 1, wherein the mechanism comprises: the first metal rod (13) forms a telescopic mechanism through the first spring (7) and the first sleeve (6), and four groups of the first metal rod (13), the first spring (7) and the first sleeve (6) are arranged.

4. The mechanism of claim 1, wherein the mechanism comprises: first fixed plate (21) and second metal pole (27) all constitute telescopic machanism through between third spring (29) and second sleeve (26), and first fixed plate (21), second metal pole (27), third spring (29) and second sleeve (26) all are provided with two sets ofly, and every group second metal pole (27), second sleeve (26) and third spring (29) all are provided with two, every group first fixed plate (21), second metal pole (27), third spring (29) and second sleeve (26) all set up about the axis symmetry of second fixed slot (25) simultaneously.

5. The mechanism of claim 1, wherein the mechanism comprises: the second fixing plate (22) forms a telescopic mechanism through a second spring (24) and the first fixing groove (23).

6. The mechanism of claim 1, wherein the mechanism comprises: the number of the baffle strips (1) is four, and the baffle strips (1) are arranged on the positioning rod (17) at equal angles.

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