CN107399577B - Magnetic die sleeve conveying and cage returning mechanism - Google Patents

Abstract

The magnetic die sleeve conveying and cage returning mechanism comprises a support, a horizontal rail, an inclined rail, a vertical truss, a first inclined truss, a first horizontal truss, a second inclined truss and a third horizontal truss, wherein the horizontal rail, the inclined rail, the vertical truss, the first inclined truss, the second horizontal truss, the second inclined truss and the third horizontal truss are sequentially supported and arranged on the support from left to right; according to the magnetic die sleeve conveying and returning mechanism, the die sleeve is vertically lifted through the combination of the conveyor belt and the magnetic steel, then is horizontally conveyed through the first horizontal truss and the second horizontal truss, and is pushed downwards by the second inclined truss of 30 degrees to prevent the die sleeve from overturning, and finally the die sleeve is combined on the third horizontal truss, so that the die sleeve is buffered and converged, and the magnetic die sleeve conveying and returning mechanism is small in size and low in production cost.

Description

Magnetic die sleeve conveying and cage returning mechanism

Technical Field

The invention relates to a magnetic die sleeve conveying and cage returning mechanism.

Background

The die sleeve plays a role in transporting and fixing the battery as a carrier of the battery in the production process of the battery, after the battery is produced, the die sleeve needs to be conveyed back to a production line to realize the cyclic and reciprocating utilization of the die sleeve, the original production line of the existing die sleeve is conveyed through the buffer table, the buffer table is installed outside the production line, and the buffer table influences the attractiveness of the whole production line. In addition, the existing buffer table is too large in size, occupies a large space, generates dust and noise, and is high in manufacturing cost.

Disclosure of Invention

The invention provides a magnetic die sleeve conveying and cage returning mechanism which is multi-directional and multi-angle conveying and is not influenced by spatial position.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the magnetic die sleeve conveying and cage returning mechanism comprises a support, and a horizontal rail, an inclined rail, a vertical truss, a first inclined truss, a first horizontal truss, a second inclined truss and a third horizontal truss which are sequentially supported and arranged on the support from left to right, wherein the ends of the vertical truss, the first inclined truss, the first horizontal truss, the second inclined truss and the third horizontal truss are sequentially connected, and an arc-shaped rail is arranged at the top of the vertical truss; one end of the arc-shaped rail is connected with the top of the vertical truss, and the other end of the arc-shaped rail is connected with the left end of the first horizontal truss; the left end of the inclined track is higher than the right end, the left end of the inclined track is connected with the right end of the horizontal track, the right end of the inclined track is connected with the bottom end of the vertical truss, the left end of the second inclined truss is higher than the right end, the first inclined truss is located below the arc-shaped rail and opposite to the arc-shaped rail, magnetic steel is arranged on the vertical truss and the first inclined truss, a first conveying belt is arranged on the vertical truss, the first inclined truss and the first horizontal truss, a second conveying belt is arranged on the second horizontal truss, the second inclined truss and the third horizontal truss, and a third conveying belt is arranged on the horizontal track.

Preferably, the bottom of vertical truss is provided with the follower, the bottom of first horizontal truss is provided with the motor, the motor includes the drive head, the right side tip of first horizontal truss is provided with the action wheel, first conveyer belt cover is established on action wheel and follower, the cover is equipped with the belt on drive head and the action wheel, the motor passes through belt drive the action wheel rotates.

Preferably, tensioning wheels are respectively arranged at two ends of the bottom of the first inclined truss, a tensioning mechanism is further arranged at the bottom of the first horizontal truss 6, the tensioning mechanism comprises a large tensioning wheel and two small tensioning wheels, the two small tensioning wheels are located on two sides of the upper portion of the large tensioning wheel, the first conveying belt is sleeved on the large tensioning wheel and the small tensioning wheel, and the bottom of the first conveying belt is supported and tensioned through the tensioning wheels and the tensioning mechanism.

Preferably, the first horizontal truss and the second horizontal truss have the same height.

Preferably, the arc rail is provided with a guide groove.

Preferably, the magnetic steels on the vertical truss and the first inclined truss are arranged at equal intervals.

Preferably, the third horizontal truss is provided with left and right driving wheels.

Compared with the prior art, the magnetic die sleeve conveying and returning mechanism provided by the invention has the advantages that the die sleeve is vertically lifted through the combination of the conveyor belt and the magnetic steel, then horizontally conveyed through the second horizontal rail, and downwards pushed by the second inclined rail of 30 degrees to prevent the die sleeve from overturning, and finally the die sleeve is combined on the third horizontal rail, so that the die sleeve is buffered and converged, and the magnetic die sleeve conveying and returning mechanism is small in size and low in production cost.

Drawings

FIG. 1 is a first partial structural view of the magnetic die sleeve conveying and returning mechanism of the invention.

Fig. 2 is a second partial structural view of the magnetic die sleeve conveying and returning mechanism of the invention.

Fig. 3 is a third partial structural view of the magnetic die sleeve conveying and returning mechanism of the invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 3, the magnetic die sleeve conveying and returning mechanism includes a support 1, and a horizontal rail 2, an inclined rail 3, a vertical truss 4, a first inclined truss 5, a first horizontal truss 6, a second horizontal truss 7, a second inclined truss 8, and a third horizontal truss 9 which are sequentially supported from left to right on the support 1. The end parts of the vertical truss 4, the first inclined truss 5, the first horizontal truss 6, the second horizontal truss 7, the second inclined truss 8 and the third horizontal truss 9 are connected in sequence, and the first horizontal truss 6 and the second horizontal truss 7 are consistent in height.

The top of vertical truss 4 is provided with arc rail 10, is provided with the guide way on the arc rail 10, and the one end and the top of vertical truss 4 of arc rail 10 are connected, and the other end is connected with the left end of first horizontal truss 6.

The left end of the inclined rail 3 is higher than the right end, and the left end of the inclined rail 3 is connected to the right end of the horizontal rail 2, and the right end of the inclined rail 3 is connected to the bottom end of the vertical girder 4. The first inclined truss 5 is positioned below the arc-shaped rail 10 and opposite to the arc-shaped rail 10, and the left end of the second inclined truss 8 is higher than the right end.

The third horizontal truss 9 is provided with left and right opposed drive wheels (not shown) which are rotated to apply a force to the die set 100 as the die set 100 passes between the drive wheels to prevent multiple die sets 100 from jamming.

The bottom both ends of first slope truss 5 are provided with take-up pulley 16 respectively, and the bottom of vertical truss 4 is provided with follower 15, and the bottom of first horizontal truss 6 sets up motor 12, and motor 12 includes driving head 121, and the right side tip of first horizontal truss 6 is provided with action wheel 13, and the cover is equipped with first conveyer belt 18 on action wheel 13 and the follower 15, and first conveyer belt 18 extends along vertical truss 4, first slope truss 5 and first horizontal truss 6. The driving head 121 and the driving wheel 13 are sleeved with a belt 14, and the motor 12 drives the driving wheel 13 to rotate through the belt 14. The bottom of the first horizontal truss 66 is further provided with a tensioning mechanism 17, the tensioning mechanism 17 comprises a large tensioning wheel 171 and two small tensioning wheels 172, the two small tensioning wheels 172 are located on two sides above the large tensioning wheel 171, and the first conveying belt 18 is sleeved on the large tensioning wheel 171 and the small tensioning wheels 172.

The bottom of the second horizontal truss 7 is provided with a motor 12 and a tensioning mechanism 17, and the horizontal track 2 is provided with a third conveyor belt.

The vertical truss 4 and the first inclined truss 5 are provided with the magnetic steel 11 at equal intervals, when the die sleeve 100 moves to the bottom of the vertical truss 4 from left to right along the third conveyor belt and the inclined rail 3 on the horizontal rail 2, the first conveyor belt 18 conveys the die sleeve 100 to move upwards along the vertical truss 4, and the magnetic steel 11 exerts an adsorption acting force on the die sleeve 100 so as to prevent the die sleeve 100 from falling off from the first conveyor belt 18. When the die case 100 moves to the end of the arc-shaped rail 10 along with the first conveyor belt 18, because the magnetic steel 11 is arranged on the first inclined truss 5, the magnetic steel 11 exerts an adsorption acting force on the die case 100, so that the die case 100 can move to the first conveyor belt 18 of the first horizontal truss 6 along the guide groove in the arc-shaped rail 10.

The second horizontal truss 7, the second inclined truss 8 and the third horizontal truss 9 are provided with a second conveyor belt for conveying the die sleeve 100, and the die sleeve 100 is conveyed to a production line of the third horizontal truss 9 through the horizontal rail 2, the inclined rail 3, the vertical truss 4, the arc-shaped rail 10, the first horizontal truss 6, the second horizontal truss 7 and the second inclined truss 8 in sequence.

The bottom of the first conveyor belt 18 is supported and tensioned by the tensioning wheel 16 and the tensioning mechanism 17, so that the first conveyor belt 18 is ensured to be in a tensioned state all the time, and the conveying efficiency of the first conveyor belt 18 is improved.

The magnetic steels 13 on the vertical truss 4 and the first inclined truss 5 are arranged at equal intervals, so that the consistency of the adsorption force between the magnetic steels 11 and the die sleeve 100 can be ensured, and the die sleeve 100 can be prevented from falling off from the first conveyor belt 18 and the arc-shaped rail 10 due to uneven stress.

According to the magnetic die sleeve conveying and cage returning mechanism, the die sleeve 100 is vertically lifted through the combination of the first conveyor belt 18 and the magnetic steel 11, then horizontally conveyed through the first horizontal truss 6 and the second horizontal truss 7, the second inclined truss 8 at an angle of 30 degrees is returned to the cage and downwards rushed, the die sleeve 100 is prevented from overturning, finally the die sleeve 100 is combined in the third horizontal truss 9, the die sleeve 100 is buffered and converged, and the magnetic die sleeve conveying and cage returning mechanism is small in size and low in production cost.

Finally, it should be noted that: the above examples are merely illustrative of the technical solutions of the present invention, and not limitative thereof; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (7)

1. The magnetic die sleeve conveying and cage returning mechanism comprises a support (1), and a horizontal rail (2), an inclined rail (3), a vertical truss (4), a first inclined truss (5), a first horizontal truss (6), a second horizontal truss (7), a second inclined truss (8) and a third horizontal truss (9) which are sequentially supported from left to right on the support (1), wherein the ends of the vertical truss (4), the first inclined truss (5), the first horizontal truss (6), the second horizontal truss (7), the second inclined truss (8) and the third horizontal truss (9) are sequentially connected, and the magnetic die sleeve conveying and cage returning mechanism is characterized in that an arc-shaped rail (10) is arranged at the top of the vertical truss (4); one end of the arc-shaped rail (10) is connected with the top of the vertical truss (4), and the other end of the arc-shaped rail is connected with the left end of the first horizontal truss (6); the utility model discloses a construction method, including slope track (3), vertical truss (5), vertical truss (4), magnetic steel (11), vertical truss (4), first inclined truss (4), first horizontal truss (6), second inclined truss (8), second horizontal truss (7), second inclined truss (8) and third horizontal truss (9), the left side tip of slope track (3) is higher than the right-hand member of right side tip to the left end of slope track (3) is connected with the right-hand member of horizontal track (2), the right-hand member of slope track (3) is connected with the bottom of vertical truss (4), the left end of second inclined truss (8) is higher than the right-hand member, first inclined truss (5) are located the below of arc rail (10) and relative with arc rail (10), be provided with magnet steel (11) on vertical truss (4) and first inclined truss (5), be provided with first conveyer belt (18) on vertical truss (4), first inclined truss (5) and first horizontal truss (6), be provided with the second conveyer belt on second horizontal truss (7), second inclined truss (8) and third horizontal truss (9), be equipped with the third conveyer belt on horizontal track (2).

2. The magnetic die sleeve conveying and returning mechanism according to claim 1, wherein a driven wheel (15) is arranged at the bottom end of the vertical truss (4), a motor (12) is arranged at the bottom of the first horizontal truss (6), the motor (12) comprises a driving head (121), a driving wheel (13) is arranged at the right side end of the first horizontal truss (6), the first conveying belt (18) is sleeved on the driving wheel (13) and the driven wheel (15), a belt (14) is sleeved on the driving head (121) and the driving wheel (13), and the motor (12) drives the driving wheel (13) to rotate through the belt (14).

3. The magnetic die sleeve conveying mechanism according to claim 1, wherein tension pulleys (16) are respectively arranged at two ends of the bottom of the first inclined truss (5), a tension mechanism (17) is further arranged at the bottom of the first horizontal truss (6), the tension mechanism (17) comprises a large tension pulley (171) and two small tension pulleys (172), the two small tension pulleys (172) are arranged at two sides of the upper part of the large tension pulley (171), the first conveying belt (18) is sleeved on the large tension pulley (171) and the small tension pulleys (172), and the bottom of the first conveying belt (18) is supported and tensioned by the tension pulleys (16) and the tension mechanism (17).

4. The magnetic die sleeve conveying mechanism according to claim 1, wherein the first horizontal truss (6) and the second horizontal truss (7) are identical in height.

5. The magnetic die sleeve conveying mechanism according to claim 1, wherein the arc-shaped rail (10) is provided with a guide groove.

6. The magnetic die sleeve conveying mechanism according to claim 1, wherein the magnetic steel (11) on the vertical truss (4) and the first inclined truss (5) are arranged at equal intervals.

7. The magnetic die sleeve conveying and returning mechanism according to claim 1, wherein the third horizontal truss (9) is provided with left and right opposite driving wheels.

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