CN113844769A - Storage frame for filament spools - Google Patents

Abstract

The invention discloses a storage rack for filament spools, which comprises an outer frame, a sliding chute, a placing groove, a plurality of placing plates and a clamping mechanism, wherein the sliding chute is arranged on the outer frame; the placing plate is provided with a plurality of fixing mechanisms, and the bottom of the outer frame is provided with a collecting frame; the outer frame is provided with a pushing mechanism, and the outer frame is arranged up and down through the matching of the pushing mechanism.

Description

Storage frame for filament spools

Technical Field

The invention belongs to the technical field of polyester filament storage, and particularly relates to a storage rack for filament spools.

Background

Dacron is an important variety of synthetic fiber, and has the characteristics of high strength, wear resistance, acid resistance, alkali resistance, high temperature resistance, light weight, heat preservation, good electrical insulation, mildew and moth resistance and the like.

The existing polyester yarn winding frame is required to be placed on the placing frame for storage after being wound by the winding frame, the existing placing frame is fixed in height and is not provided with a lifting structure, so that the polyester yarn winding frame at the high position of the placing frame exists, people usually take off or place the polyester yarn winding frame by two hands or a climbing tool, the polyester yarn winding frame wound with the polyester yarn is placed for storage, time and labor are wasted for workers, and dangerous factors of falling down exist when the climbing tool is used.

Disclosure of Invention

The invention provides a storage rack for filament spools, which overcomes the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a storage rack for filament bobbins comprises an outer frame, a sliding groove arranged on the outer frame, a placing groove arranged at the front end of the sliding groove, a plurality of placing plates capable of sliding in the sliding groove, and a clamping mechanism arranged at the front end of the sliding groove; the placing plate is provided with a plurality of fixing mechanisms, and the bottom of the outer frame is provided with a collecting frame; the outer frame is provided with a pushing mechanism, and the outer frame is arranged up and down through the matching of the pushing mechanism.

Furthermore, fixed establishment is including setting up two limiting plates on placing the board, locates the pivot between two limiting plates can pivoted fixed column in the pivot sets up the locating component on arbitrary limiting plate.

Furthermore, the fixed column is also provided with a plurality of extension assemblies and an end rod, each extension assembly comprises a cylindrical groove, a rotary groove arranged at the end part of the cylindrical groove, a slide block groove arranged at the outer side of the cylindrical groove, a cylinder capable of sliding in the cylindrical groove, and a slide block arranged at the end part of the cylindrical groove and capable of sliding in the slide block groove, and the end part of the cylindrical groove is provided with an ejection part and a limit part matched with the slide block and arranged at the outer side of the end part of the cylindrical groove; one end of the slide block slot is communicated with the rotary slot.

Further, the ejecting component comprises an elastic plate sliding groove arranged at the bottom of the cylinder, an elastic plate capable of sliding in the elastic plate sliding groove, and an elastic plate spring positioned between the elastic plate and the cylinder.

Further, the stopper member includes a disk slide groove provided at the other end of the slider groove, a disk slidable in the disk slide groove, a disk spring positioned between the disk and the disk slide groove, and a stopper groove provided at an end of the disk slide groove; the limiting grooves and the sliding block grooves are distributed in a staggered mode.

Furthermore, the end rod is provided with an anti-falling part; the anti-falling part comprises a sliding rod groove arranged on the end rod, a vertical groove arranged at the lower end of the sliding rod groove, and a sliding rod capable of sliding in the sliding rod groove.

Furthermore, clamping mechanism is including being located the splint spout of spout front end, can be in gliding splint in the splint spout, locate drive assembly on the splint antetheca.

Furthermore, the driving assembly comprises a through groove arranged on the front wall of the sliding groove of the clamping plate, a stud arranged on the front wall of the clamping plate and capable of rotating in the through groove, and a rotating ring capable of rotating on the outer frame and capable of being in threaded connection with the stud.

Furthermore, two rubber strips are arranged on the rear wall of the clamping plate; the rubber strip can be contacted with the upper end and the lower end of the front wall of the placing plate.

Further, when the outer frame is vertically arranged, the pushing mechanism comprises an electric push rod arranged on the side portion of the outer frame below, a homing groove arranged on the outer frame above, a supporting block arranged at the upper end of the electric push rod and capable of sliding between the homing grooves, and a homing spring positioned between the supporting block and the homing groove.

In conclusion, the movable polyester filament coil fixing device can be suitable for polyester filament coils with different diameters by arranging the movable placing plate and the rotatable fixing column, and saves space; through the arrangement of the plurality of extension assemblies, the utilization rate of the fixed column can be improved, and the utilization rate of the fixed column is maximized within the range of the gravity borne by the fixed column and the extension assemblies; through the arrangement of the pushing mechanism, the components can be utilized at the upper end of the outer frame which can not be contacted by workers.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the fixing mechanism.

Fig. 3 is an enlarged view of fig. 2 at a.

Fig. 4 is a schematic structural diagram of the driving assembly.

Fig. 5 is a schematic structural diagram of the rubber strip.

In the figure, 1 outer frame, 10 sliding grooves, 11 placing grooves, 12 clamping plate sliding grooves, 13 through grooves, 14 collecting frames, 15 homing grooves, 16 electric push rods, 17 supporting blocks, 18 homing springs, 2 placing plates, 20 limiting plates, 21 rotating shafts, 3 fixing columns, 4 end rods, 40 sliding rod grooves, 41 vertical grooves, 42 sliding rods, 5 cylindrical grooves, 50 rotating grooves, 51 sliding block grooves, 52 circular plate sliding grooves, 53 limiting grooves, 6 cylinders, 60 sliding blocks, 61 elastic plate sliding grooves, 7 elastic plates, 70 elastic plate springs, 8 circular plates, 80 circular plate springs, 9 clamping plates, 90 studs, 91 rotating rings and 92 rubber strips.

Detailed Description

As shown in fig. 1 to 5, the device comprises an outer frame 1, a chute 10 provided on the outer frame 1, a placement groove 11 provided at the front end of the chute 10, a plurality of placement plates 2 capable of sliding in the chute 10, and a clamping mechanism provided at the front end of the chute 10; the placing plate 2 is provided with a plurality of fixing mechanisms; a collecting rack 14 is arranged at the bottom of the outer frame; the outer frame 1 is provided with a pushing mechanism, and the outer frame 1 is arranged up and down through the matching of the pushing mechanism.

The collecting rack 14 consists of a baffle plate and two L-shaped plates which are symmetrical left and right and incline forwards; the L-shaped plate consists of an inclined plate and a front baffle; the distance between the L-shaped plates is smaller than the length of the placing plate 2 and larger than the distance between the limiting plates 20 at the two ends of the placing plate 2; and a reinforcing rib is arranged between the bottom of the L-shaped plate and the front wall of the baffle.

After taking out one placing plate 2 from the collecting rack 14, the placing plate 2 at the back slides downwards to the baffle plate through the inclined plate, so that the taking is convenient.

The placing plate 2 is placed in the placing groove 11 and is placed in a sliding mode inwards along the direction of the sliding groove 10, and the position of the placing plate 2 can be fixed and prevented from sliding left and right through the arrangement of the clamping mechanism; the fixing mechanism is a mechanism for placing the polyester filament coil.

Specifically, the fixing mechanism comprises two limiting plates 20 arranged on the placing plate 2, a rotating shaft 21 arranged between the two limiting plates 20, a fixing column 3 capable of rotating on the rotating shaft 21, and a positioning assembly arranged on any one limiting plate 20; the diameter of the fixed column 3 is not more than the height of the limiting plate 20; the left end or the right end of fixed column 3 are equipped with the bracing piece, and when fixed column 3 rotated to and placed board 2 perpendicular, the bracing piece with place board 2 contact.

The fixed column 3 can rotate around the rotating shaft 21, the limiting plate 20 can limit the rotating direction of the fixed column 3, and the rotating direction of the fixed column 3 is controlled to rotate left and right; when the diameter of the polyester filament coil is larger than the distance between the upper fixing column 3 and the lower fixing column 3, rotating one or more fixing columns 3 below around the rotating shaft 21 to be in contact with the front wall of the placing plate 2 until the distance between the two fixing columns 3 is larger than the diameter of the polyester filament coil; after the polyester filament roll of the placing plate 2 is placed, the other placing plate 2 slides into the sliding groove 10 through the placing groove 11, the distance between the left fixing column 3 and the right fixing column 3 is controlled to be larger than the diameter of the polyester filament roll, the second placing plate 2 is sleeved with the polyester filament roll, and then the second placing plate moves towards the first placing plate 2 until the two polyester filament rolls contact with each other.

Specifically, the fixed column 3 is further provided with a plurality of extension assemblies and an end rod 4, each extension assembly comprises a cylindrical groove 5, a rotary groove 50 arranged at the end of the cylindrical groove 5, a limiting piece arranged on the rotary groove 50 and on the same surface as the sliding block groove 51, a sliding block groove 51 arranged on the outer side of the cylindrical groove 5, a cylinder 6 capable of sliding in the cylindrical groove 5, a sliding block 60 arranged at the end of the cylinder 6 and capable of sliding in the sliding block groove 51, and an ejecting part arranged at the end of the cylinder 6 and matched with the sliding block 60 to be arranged on the limiting part on the outer side of the end of the cylindrical groove 5; one end of the slide block slot 51 is communicated with the rotary slot 50; the ends of the slider slots 51 are chamfered.

The diameters of the cylindrical grooves 5, the rotary grooves 50 and the cylinders 6 in the plurality of extension assemblies are sequentially reduced, the cylindrical groove 5 of the first extension assembly is positioned in the fixed column 3, and the first cylinder 6 can slide in the cylindrical groove 5 in the fixed column 3; the cylindrical groove 5 of the second elongate member is located within the first cylinder 6, the second cylinder 6 being able to slide within the cylindrical groove 5 within the first cylinder 6; by analogy, the number of the elongated elements illustrated in the present disclosure is merely an example, and the specific implementation is not limited by the illustration.

Specifically, the ejecting member includes an elastic plate sliding groove 61 formed in the bottom of the cylinder 6, an elastic plate 7 capable of sliding in the elastic plate sliding groove 61, and an elastic plate spring 70 located between the elastic plate 7 and the cylinder 6.

When a large amount of polyester filament coils are needed, the cylinder 6 is rotated to be in contact with the limiting piece, the cylinder 6 is ejected out through the acting force of the elastic plate spring 7, and the effect of assisting power is achieved.

Specifically, the stopper member includes a disk slide groove 52 provided at the other end of the slider groove 51, a disk 8 slidable in the disk slide groove 52, a disk spring 80 positioned between the disk 8 and the disk slide groove 52, and a stopper groove 53 provided at the end of the disk slide groove 52; the end of the limiting groove 53 is provided with a chamfer; the limiting grooves 53 and the sliding block grooves 51 are distributed in a staggered manner; the circular plate sliding groove 52 is provided with a limiting rib, and the limiting rib is coplanar with the limiting groove 53.

When the cylinder 6 slides to the outer end from the inner end of the sliding column groove 5, the cylinder 6 is pulled outwards until the sliding block 60 is contacted with the circular plate 8, and then the cylinder 6 is pulled outwards until the cylinder 6 is rotated after being pulled to be fixed until the side wall of the sliding block 60 is pushed in the limiting groove 53 after being contacted with the limiting rib, and the position of the sliding block 60 can be limited by the acting force of the circular plate spring 80, so that the cylinder 6 is prevented from being retracted accidentally.

Specifically, the end rod is provided with an anti-falling part; the anti-drop part comprises a sliding rod groove 40 arranged on the end rod 4, a vertical groove 41 arranged at the lower end of the sliding rod groove 40, and a sliding rod 42 capable of sliding in the sliding rod groove 40; two ends of the sliding rod 42 are provided with cylindrical rods; a first sliding chute provided with a cylindrical rod is matched on the sliding rod groove 40, and a second sliding chute provided with a cylindrical rod is also matched on the vertical groove 41; the vertical groove is communicated with the outer wall of the end rod 4, and the second sliding groove is not communicated with the outer wall of the end rod 4.

When the polyester filament coil is fully sleeved on the fixed column 3 and the column 6, the sliding rod 42 is pulled outwards to the end part of the sliding rod groove 40 and then upwards rotates to 90 degrees, the end part of the sliding rod 42 is inserted into the vertical groove 41, the sliding rod 42 is fixed, and the polyester filament coil can be prevented from sliding out and falling.

Specifically, the clamping mechanism comprises a clamping plate sliding groove 12 located at the front end of the sliding groove 10, a clamping plate 9 capable of sliding in the clamping plate sliding groove 12, and a driving assembly arranged on the front wall of the clamping plate 9.

Specifically, the driving assembly includes a through groove 13 disposed on the front wall of the clamp plate sliding groove 12, a stud 90 disposed on the front wall of the clamp plate 9 and capable of rotating in the through groove 13, and a rotating ring 91 capable of rotating on the outer frame 1 and capable of being screwed with the stud 90.

By rotating the rotary ring 91, the clamping plate 9 is driven by the stud 90 to move towards the direction close to the placing plate 2, so that the placing plate 2 is clamped and fixed.

Specifically, two rubber strips 92 are arranged on the rear wall of the clamping plate 9; the rubber strip 92 can be in contact with the upper and lower ends of the front wall of the placing plate 2.

The rubber strips 92 can increase the friction between the placing plates 2.

Specifically, the pushing mechanism includes an electric push rod 16 disposed on a side portion of the lower outer frame 1, a return groove 15 disposed on the upper outer frame 1, a support block 17 disposed at an upper end of the electric push rod 16 and capable of sliding between the return grooves 15, and a return spring 18 disposed between the support block 17 and the return groove 15.

Before the fixed columns 3 and the columns 6 are fully sleeved, the positions of the outer frame 1 and the outer frame 1 are overlapped front and back; after the outer frame 1 at the front is fully sleeved, the electric push rod 16 is started to push the outer frame 1 at the front upwards, and when the outer frame 1 at the front moves to the position where the outer frame 1 at the rear is not overlapped with the front view, the outer frame 1 moving to the upper end is longitudinally overlapped with the outer frame 1 at the lower end through the extrusion of the return spring 18, so that the space utilization rate is improved.

Claims (10)

1. A storage rack for filament spools, comprising: the device comprises a plurality of outer frames (1), sliding chutes (10) arranged on the outer frames (1), placing grooves (11) arranged at the front ends of the sliding chutes (10), a plurality of placing plates (2) capable of sliding in the sliding chutes (10), and clamping mechanisms arranged at the front ends of the sliding chutes (10); a plurality of fixing mechanisms are arranged on the placing plate (2); a collecting rack (14) is arranged at the bottom of the outer frame (1); the outer frame (1) is provided with a pushing mechanism, and the outer frame (1) is arranged up and down or front and back through the matching of the pushing mechanism.

2. A storage rack for spools of filament as defined in claim 1, further comprising: the fixing mechanism comprises two limiting plates (20) arranged on the placing plate (2), a rotating shaft (21) arranged between the two limiting plates (20), a fixing column (3) capable of rotating on the rotating shaft (21), and a positioning assembly arranged on any limiting plate (20).

3. A storage rack for spools of filament as defined in claim 2, further comprising: the fixed column (3) is also provided with a plurality of extension assemblies and an end rod (4), each extension assembly comprises a cylindrical groove (5), a rotary groove (50) arranged at the end part of the cylindrical groove (5), a sliding block groove (51) arranged on the outer side of the cylindrical groove (5), a cylinder (6) capable of sliding in the cylindrical groove (5), and a sliding block (60) arranged at the end part of the cylinder (6) and capable of sliding in the sliding block groove (51), wherein the end part of the cylinder (6) is provided with an ejecting part, and a limiting part matched with the sliding block (60) and arranged on the outer side of the end part of the cylindrical groove (5); one end of the slide block groove (51) is communicated with the rotary groove (50).

4. A storage rack for spools of filament as defined in claim 3, further comprising: the ejecting part comprises an elastic plate sliding groove (61) arranged at the bottom of the cylinder (6), an elastic plate (7) capable of sliding in the elastic plate sliding groove (61), and an elastic plate spring (70) positioned between the elastic plate (7) and the cylinder (6).

5. A storage rack for spools of filament as defined in claim 3, further comprising: the limiting component comprises a circular plate sliding groove (52) arranged at the other end of the sliding block groove (51), a circular plate (8) capable of sliding in the circular plate sliding groove (52), a circular plate spring (80) positioned between the circular plate (8) and the circular plate sliding groove (52), and a limiting groove (53) arranged at the end of the circular plate sliding groove (52); the limiting grooves (53) and the sliding block grooves (51) are distributed in a staggered mode.

6. A storage rack for spools of filament as defined in claim 3, further comprising: the end rod is provided with an anti-falling part; the anti-falling part comprises a sliding rod groove (40) arranged on the end rod (4), a vertical groove (41) arranged at the lower end of the sliding rod groove (40), and a sliding rod (42) capable of sliding in the sliding rod groove (40).

7. A storage rack for spools of filament as defined in claim 1, further comprising: the clamping mechanism comprises a clamping plate sliding groove (12) located at the front end of the sliding groove (10), a clamping plate (9) capable of sliding in the clamping plate sliding groove (12), and a driving assembly arranged on the front wall of the clamping plate (9).

8. A storage rack for spools of filament as defined in claim 7, further comprising: the driving assembly comprises a through groove (13) arranged on the front wall of the clamping plate sliding groove (12), a stud (90) arranged on the front wall of the clamping plate (9) and capable of rotating in the through groove (13), and a rotating ring (91) capable of rotating on the outer frame (1) and capable of being in threaded connection with the stud (90).

9. A storage rack for spools of filament as defined in claim 7, further comprising: two rubber strips (92) are arranged on the rear wall of the clamping plate (9); the rubber strip (92) can be contacted with the upper end and the lower end of the front wall of the placing plate (2).

10. A storage rack for spools of filament as defined in claim 1, further comprising: when the outer frame (1) is vertically arranged, the pushing mechanism comprises an electric push rod (16) arranged on the side of the lower outer frame (1), a homing groove (15) arranged on the upper outer frame (1), a supporting block (17) arranged at the upper end of the electric push rod (16) and capable of sliding between the homing grooves (15), and a homing spring (18) positioned between the supporting block (17) and the homing groove (15).

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