CN212922107U - Wire mesh bundling and packaging device - Google Patents

Abstract

The utility model discloses a silk screen bundling and packaging device, which comprises a base, a bundling cavity, a driving motor and a roller, wherein the top end of the base is fixedly connected with the bundling cavity, the bottom end inside the bundling cavity is fixedly connected with the roller, the utility model realizes the flattening function by being provided with a flattening structure, the bundling silk screen in a storage box is discharged, two groups of flattening wheels are arranged through the flattening wheel at the bottom end of the storage box, the bundling silk screen passes between the flattening wheels to realize the flattening effect, then falls to a feeding plate at one side of the discharging plate, as one side of the feeding plate is provided with textures, the friction force between the bundling silk screens can be increased, a servo motor at the top end of a gear is started, the servo motor starts a rotating shaft which drives the bottom end of the servo motor to rotate, the rotating shaft rotates a gear which drives the bottom end of the rotating shaft to rotate, the gear rotates to drive the, the binding wire net is attached to the surface of the rolling material when the rolling material is moved to the upper part of the rolling wheel, and then binding package is completed.

Description

Wire mesh bundling and packaging device

Technical Field

The utility model relates to a bundle packing technical field specifically is a bundle packing plant is beaten to silk screen.

Background

In order to facilitate storage and transportation, some articles are often bundled and packaged, such as straws, straws and the like, which are good raw materials, can be processed into feed and the like for secondary utilization, so that the condition that the environment is damaged by burning due to inconvenient transportation and storage is avoided, the articles need to be bundled and packaged at the moment, and a special bundling and packaging device is used;

however, when the existing wire-net bundling and packaging device in the market is used, most of the existing wire-net bundling and packaging devices are finished by using films or hemp ropes, the speed is low, the bundling effect is not ideal, the efficiency can be effectively increased and the bundling effect can be effectively achieved by using the wire-net instead, but the existing wire-net is not easy to be paved, so that the whole bundling effect is influenced, and therefore, the wire-net bundling and packaging device is developed to solve the problems.

Disclosure of Invention

An object of the utility model is to provide a bundle packing plant is beaten to the silk screen that proposes in solving above-mentioned background art is difficult for the problem of spreading.

In order to achieve the above object, the utility model provides a following technical scheme: a wire mesh bundling packaging device comprises a substrate, a bundling cavity, a driving motor and rollers, wherein the top end of the substrate is fixedly connected with the bundling cavity, the bottom end inside the bundling cavity is fixedly connected with the rollers, one end of each roller is fixedly connected with a belt, the bottom end of each belt is movably connected with the driving motor, the bottom end of one side of the bundling cavity is provided with a feed inlet, the top end inside the bundling cavity is fixedly connected with an adjusting structure, one side of the top end of the bundling cavity is fixedly connected with a hinge, the bottom end of the hinge is movably connected with a discharge plate, one side inside the bundling cavity is fixedly connected with a storage box, the bottom end of the storage box is fixedly connected with a flattening structure, the flattening structure comprises a flattening wheel, a feed plate, a fixed frame, a sliding rod, a servo motor, a rotating shaft and a gear, the bottom end of the storage box is fixedly, go out one side fixedly connected with servo motor of flitch, servo motor's bottom swing joint has the pivot, the bottom swing joint of pivot has the gear, one side swing joint of gear has the feed plate, the bottom fixedly connected with slide bar of feed plate, one side swing joint of slide bar has the mount, be provided with between storage tank and the flat structure of exhibition and beat the bundle silk screen, buffer structure is installed to one side of basement.

Preferably, the rollers are provided with three groups, and the two groups of rollers form connection transmission through a belt.

Preferably, adjust the structure and include compression spring, press the area, pinch roller and shrink winding, the inside top swing joint of bundle cavity has the shrink winding, the bottom fixedly connected with who shrinks the winding presses the area, the top swing joint who presses the area has the pinch roller, the top fixedly connected with compression spring of pinch roller, press the area and constitute extending structure through compression spring and shrink winding.

Preferably, one side of the feeding plate is provided with a rack which is meshed with the gear, flattening textures are uniformly distributed on the other side of the feeding plate, and the sliding rod and the fixing frame form a clamping structure.

Preferably, buffer structure includes bottom plate, buffer spring, flexible piece, flexible groove, branch, diaphragm, spout and slider, the bottom plate is installed to one side of basement, the flexible piece of top fixedly connected with of bottom plate, the top swing joint of flexible piece has flexible groove, flexible piece and flexible groove constitution block structure.

Preferably, swing joint has branch between flexible groove and the bottom plate, branch is provided with two sets ofly, fixedly connected with buffer spring between the branch, one side fixedly connected with slider of branch, the bottom swing joint of slider has the spout, slider and spout constitute sliding connection.

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

1. the flat-open function is realized by arranging the flat-open structure, the bundling silk screen in the storage box is discharged and passes through the flat-open wheels at the bottom end of the storage box, two groups of flat-open wheels are arranged, the bundling silk screen passes between the flat-open wheels to realize the flat-open function, the bundling silk screen passes through the flat-open wheels and then falls to one side of the feeding plate at one side of the discharge plate, because one side of the feeding plate is provided with textures, and the textures can increase the friction force between the bundling silk screens, the bundling silk screen passing through the flat-open wheels can be well paved on the feeding plate without knotting and other phenomena, because the other side of the feeding plate is provided with a rack and is meshed with the gear, the servo motor at the top end of the gear is started, the servo motor starts to drive the rotating shaft at the bottom end of the servo motor to rotate, the rotating shaft rotates to drive the gear at the bottom end of the rotating shaft to rotate, the feeding plate can move obliquely downwards and move to the position above the roller, so that a bundling wire mesh can be attached to the surface of the feeding plate along with materials in rolling, and bundling packaging is finished;

2. the buffering function is realized by arranging the buffering structure, after the materials are bundled and packaged in the bundling cavity, the discharging plate is opened through the hinge, the bundled materials are delivered, at the moment, the weight is larger because the materials are compressed and packaged, the materials fall on the transverse plate in the buffer structure, the downward pressing force is transmitted, the transverse plate is pressed, the telescopic groove at the bottom end of the transverse plate is driven to press and clamp the telescopic block at the bottom end of the telescopic groove, and because the buffer spring is arranged between the telescopic groove and the bottom plate, therefore, the telescopic groove is pressed downwards to drive the buffer spring to compress, and because the two ends of the buffer spring are movably connected with the supporting rods, therefore, the support rod is pressed and pushed to one side to push the sliding block at one side of the support rod, and the sliding block slides on the sliding groove due to the sliding connection between the sliding block and the sliding groove, the buffering of material discharging is finished, the impact of the material is reduced, and the firmness of bundling and packaging is guaranteed;

3. realize the function of adjusting through being provided with the regulation structure, the material gets into through the feed inlet and beats during the bundle cavity, realize rolling through the gyro wheel, press the area through adjusting in the structure and realize pressing, realize the shaping operation promptly, the material rolls more greatly, upwards extrude and press the area, press the area and be extruded, press the area of releasing certain length on the shrink winding of pressing the area top, realize the function of adjusting material thickness, owing to press area both sides swing joint and have the pinch roller, the top fixedly connected with compression spring of pinch roller, the material is thick more extrudees compression spring and upwards compresses, not only realize the regulation of material thickness, and compression spring acts on the material in reverse, make its compressed compacter, practice thrift the cost.

Drawings

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

fig. 2 is a schematic side view of the cross-sectional structure of the present invention;

FIG. 3 is an enlarged schematic view of the buffering structure of the present invention;

fig. 4 is an enlarged schematic structural diagram of a in fig. 1 according to the present invention.

In the figure: 1. a substrate; 2. a bundling cavity; 3. a belt; 4. a drive motor; 5. a roller; 6. a feed inlet; 7. an adjustment structure; 701. a compression spring; 702. pressing the belt; 703. a pinch roller; 704. shrinking the tape; 8. a hinge; 9. a storage box; 10. flattening the structure; 1001. flattening wheels; 1002. a feed plate; 1003. a fixed mount; 1004. a slide bar; 1005. a servo motor; 1006. a rotating shaft; 1007. a gear; 11. bundling a wire mesh; 12. a discharge plate; 13. a buffer structure; 1301. a base plate; 1302. a buffer spring; 1303. a telescopic block; 1304. a telescopic groove; 1305. a strut; 1306. a transverse plate; 1307. a chute; 1308. a slide block.

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. 1-4, the present invention provides an embodiment: a wire mesh bundling packaging device comprises a substrate 1, a bundling cavity 2, a driving motor 4 and a roller 5, wherein the top end of the substrate 1 is fixedly connected with the bundling cavity 2, the bottom end inside the bundling cavity 2 is fixedly connected with the roller 5, one end of the roller 5 is fixedly connected with a belt 3, the bottom end of the belt 3 is movably connected with the driving motor 4, the type of the driving motor 4 can be Y90S-2, the input end of the driving motor 4 is electrically connected with the output end of a single chip microcomputer through a wire, the bottom end of one side of the bundling cavity 2 is provided with a feed inlet 6, the top end inside the bundling cavity 2 is fixedly connected with an adjusting structure 7, one side of the top end of the bundling cavity 2 is fixedly connected with a hinge 8, the bottom end of the hinge 8 is movably connected with a discharge plate 12, one side inside the bundling cavity 2 is fixedly connected with a storage box 9, the bottom end of the storage box 9 is fixedly connected with a flattening structure, one side of the substrate 1 is provided with a buffer structure 13;

specifically, as shown in fig. 1, the adjusting structure 7 includes a compression spring 701, a pressing belt 702, a pressing wheel 703 and a contraction winding 704, the top end inside the bundling cavity 2 is movably connected with the contraction winding 704, the bottom end of the contraction winding 704 is fixedly connected with the pressing belt 702, the top end of the pressing belt 702 is movably connected with the pressing wheel 703, the top end of the pressing wheel 703 is fixedly connected with the compression spring 701, and the pressing belt 702 forms a telescopic structure through the compression spring 701 and the contraction winding 704;

the adjusting function is realized by arranging the adjusting structure 7, materials enter the bundling cavity 2 through the feeding hole 6, rolling is realized through the roller 5, pressing is realized through the pressing belt 702 in the adjusting structure 7, namely forming operation is realized, the larger the materials roll, the pressing belt 702 is upwards extruded, the pressing belt 702 is extruded, the pressing belt 702 with a certain length is released from the contraction winding belt 704 at the top end of the pressing belt 702, and the function of adjusting the thickness of the materials is realized;

as shown in fig. 1, 2 and 4, the flattening structure 10 includes a flattening wheel 1001, a feeding plate 1002, a fixing frame 1003, a sliding rod 1004, a servo motor 1005, a rotating shaft 1006 and a gear 1007, the flattening wheel 1001 is fixedly connected to the bottom end of the storage box 9, the servo motor 1005 is fixedly connected to one side of the discharging plate 12, the type of the servo motor 1005 can be EDSMT-2T, the input end of the servo motor 1005 is electrically connected with the output end of the single chip microcomputer through a lead, the bottom end of the servo motor 1005 is movably connected with a rotating shaft 1006, the bottom end of the rotating shaft 1006 is movably connected with a gear 1007, one side of the gear 1007 is movably connected with a feeding plate 1002, the bottom end of the feeding plate 1002 is fixedly connected with a sliding rod 1004, one side of the sliding rod 1004 is movably connected with a fixed frame 1003, one side of the feeding plate 1002 is provided with a rack, the feeding plate is meshed with the gear 1007, flattening textures are uniformly distributed on the other side of the feeding plate 1002, and the sliding rod 1004 and the fixed frame 1003 form a clamping structure;

the flattening function is realized by arranging the flattening structure 10, the bundling wire mesh 11 in the storage box 9 is discharged and passes through the flattening wheel 1001 at the bottom end of the storage box 9, the flattening wheel 1001 is provided with two groups, the bundling wire mesh 11 passes through the flattening wheel 1001 to realize the flattening effect, the bundling wire mesh 11 passes through the flattening wheel 1001 and then falls to one side of the feeding plate 1002 at one side of the discharging plate 12, because one side of the feeding plate 1002 is provided with textures, the textures can increase the friction force between the bundling wire mesh 11 and the feeding plate 1002, the bundling wire mesh 11 passing through the flattening wheel 1001 can be well paved on the feeding plate 1002 without generating knotting and other phenomena, because the other side of the feeding plate 1002 is provided with a rack and is meshed with the gear 1007, the servo motor 1005 is started to drive the rotating shaft 1006 at the bottom end of the servo motor 1005 to rotate, the rotating shaft 1006 rotates to drive the gear 1007 at the bottom end of the rotating shaft, the gear 1007 rotates to drive the feeding plate 1002 to move up and down, the feeding plate 1002 moves obliquely and downwards due to a certain angle, and moves to the upper part of the roller 5, so that the bundling wire mesh 11 can be attached to the surface of the feeding plate 1002 along with the rolling materials, bundling packaging is completed, and the bottom end of one side of the feeding plate 1002 is fixedly connected with the sliding rod 1004, and the sliding rod 1004 is in sliding connection with the fixed frame 1003, so that the feeding plate 1002 is fixed on the fixed frame 1003 through the sliding rod 1004 when moving up and down;

specifically, as shown in fig. 1 and fig. 3, the buffer structure 13 includes a base plate 1301, a buffer spring 1302, a telescopic block 1303, a telescopic slot 1304, a supporting rod 1305, a horizontal plate 1306, a sliding slot 1307, and a sliding block 1308, the base plate 1301 is installed on one side of the base 1, the telescopic block 1303 is fixedly connected to the top end of the base plate 1301, the telescopic slot 1304 is movably connected to the top end of the telescopic block 1303, the telescopic block 1303 and the telescopic slot 1304 form a snap-fit structure, the supporting rods 1305 are movably connected between the telescopic slot 1304 and the base plate 1301, two sets of the supporting rods 1305 are provided, the buffer spring 1302 is fixedly connected between the supporting rods 1305, the sliding block 1308 is fixedly connected to one side of the supporting rods 1305, the sliding slot 1307 is movably;

the buffering function is realized by arranging the buffering structure 13, after the materials are bundled and packaged in the bundling cavity 2, the discharging plate 12 is opened through the hinge 8, the bundled materials are discharged, at the moment, the materials are compressed and packaged, the weight is large, the materials fall on the transverse plate 1306 in the buffering structure 13, the downward pressing force is transmitted, the transverse plate 1306 is pressed, the telescopic groove 1304 at the bottom end of the transverse plate 1306 is driven to downwards press and clamp the telescopic block 1303 at the bottom end of the telescopic groove 1304, the buffering spring 1302 is driven to compress by downwards pressing the telescopic groove 1304 due to the fact that the buffering spring 1302 is arranged between the telescopic groove 1304 and the bottom plate 1301, the two ends of the buffering spring 1302 are movably connected with the supporting rods 1305, the supporting rods 1305 are pressed and clamped to one side, the sliding block 1308 at one side of the supporting rods 1305 is pushed, the sliding block 1308 slides on the sliding grooves 1307 due to the sliding connection between the sliding block 1308 and the sliding grooves, reduce the striking of material, ensured the firm nature of bundling the packing.

The working principle is as follows: when the device is used, firstly, the driving motor 4 is started, the driving motor 4 drives the belt 3 at one end of the driving motor 4 to rotate, the belt 3 rotates to drive the roller 5 to rotate, materials enter the bundling cavity 2 through the feeding hole 6, rolling is realized through the roller 5, pressing is realized through the pressing belt 702 in the adjusting structure 7, namely, forming operation is realized, the larger the material rolls, the pressing belt 702 is upwards extruded, the pressing belt 702 is extruded, the pressing belt 702 with a certain length is released from the contraction winding belt 704 at the top end of the pressing belt 702, the function of adjusting the thickness of the materials is realized, as the pressing wheels 703 are movably connected to two sides of the pressing belt 702, the top end of each pressing wheel 703 is fixedly connected with a compression spring 701, the thicker the materials extrude the compression springs 701 upwards, not only is the adjustment of the thickness of the materials realized, but also the compression springs 701 react on the materials;

then, after the material is rolled to the required thickness, the bundling wire mesh 11 in the storage box 9 is discharged, and passes through the flattening wheel 1001 at the bottom end of the storage box 9, two groups of flattening wheels 1001 are arranged, the bundling wire mesh 11 passes through the flattening wheels 1001 to realize the flattening effect, the bundling wire mesh 11 passes through the flattening wheels 1001 and then falls to one side of the feeding plate 1002 at one side of the discharging plate 12, because one side of the feeding plate 1002 is provided with textures, the textures can increase the friction force between the bundling wire mesh 11 and the feeding plate 1002, the bundling wire mesh 11 passing through the flattening wheels 1001 can be well tiled on the feeding plate 1002 without generating knotting and the like, because the other side of the feeding plate 1002 is provided with a rack and is meshed with the gear 1007, the servo motor 1005 is started to drive the rotating shaft 1006 at the bottom end of the servo motor 1005 to rotate, the rotating shaft 1006 rotates to drive the gear 1007 at the bottom end of the rotating shaft 1006 to rotate, the gear 1007 rotates to drive the feeding plate 1002 to move up and down, the feeding plate 1002 moves obliquely and downwards due to a certain angle, and moves to the upper part of the roller 5, so that the bundling wire mesh 11 can be attached to the surface of the feeding plate 1002 along with the rolling materials, bundling packaging is completed, and the bottom end of one side of the feeding plate 1002 is fixedly connected with the sliding rod 1004, and the sliding rod 1004 is in sliding connection with the fixed frame 1003, so that the feeding plate 1002 is fixed on the fixed frame 1003 through the sliding rod 1004 when moving up and down;

finally, after the materials are bundled and packaged in the bundling cavity 2, the discharging plate 12 is opened through the hinge 8, the bundled materials are discharged, at the moment, the materials are compressed and packaged, the weight is large, the materials fall on the transverse plate 1306 in the buffer structure 13, the downward pressing force is transmitted, the transverse plate 1306 is pressed, the telescopic groove 1304 at the bottom end of the transverse plate 1306 is driven to press and clamp the telescopic block 1303 at the bottom end of the telescopic groove 1304, the buffer spring 1302 is arranged between the telescopic groove 1304 and the bottom plate 1301, the telescopic groove 1304 presses downwards to drive the buffer spring 1302 to compress, the two ends of the buffer spring 1302 are movably connected with the supporting rods 1305, the supporting rods 1305 are pressed and pushed to one side, the sliding block 1308 at one side of the supporting rods 1305 is pushed, the sliding block 1308 is in sliding connection with the sliding groove 1307, the sliding block 1308 slides on the sliding groove 1307, namely the buffering of material discharging is completed, the impact of the materials is reduced, and the firmness, finally, the work of the wire mesh bundling and packaging device is finished.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a bundle packing plant is beaten to silk screen, includes basement (1), beats bundle cavity (2), driving motor (4) and gyro wheel (5), its characterized in that: bundle cavity (2) are beaten to top fixedly connected with of basement (1), beat the inside bottom fixedly connected with gyro wheel (5) of bundle cavity (2), one end fixedly connected with belt (3) of gyro wheel (5), the bottom swing joint of belt (3) has driving motor (4), the bottom of beating bundle cavity (2) one side is provided with feed inlet (6), beat the inside top fixedly connected with regulation structure (7) of bundle cavity (2), beat one side fixedly connected with hinge (8) on bundle cavity (2) top, the bottom swing joint of hinge (8) has play flitch (12), beat the inside one side fixedly connected with storage tank (9) of bundle cavity (2), the bottom fixedly connected with of storage tank (9) is flat structure (10) that flattens, it includes flat wheel (1001) of exhibition to flatten structure (10), it is flat, The feeding device comprises a feeding plate (1002), a fixing frame (1003), a sliding rod (1004), a servo motor (1005), a rotating shaft (1006) and a gear (1007), wherein a flattening wheel (1001) is fixedly connected to the bottom end of a storage box (9), the servo motor (1005) is fixedly connected to one side of a discharging plate (12), the rotating shaft (1006) is movably connected to the bottom end of the servo motor (1005), the gear (1007) is movably connected to the bottom end of the rotating shaft (1006), the feeding plate (1002) is movably connected to one side of the gear (1007), the sliding rod (1004) is fixedly connected to the bottom end of the feeding plate (1002), the fixing frame (1003) is movably connected to one side of the sliding rod (1004), a bundling wire mesh (11) is arranged between the storage box (9) and the flattening structure (10), and a buffer structure (13) is installed on one side of a.

2. The wire tying packaging device of claim 1, wherein: the idler wheels (5) are provided with three groups, and the two groups of idler wheels (5) form connection transmission through a belt (3).

3. The wire tying packaging device of claim 1, wherein: adjust structure (7) and include compression spring (701), press area (702), pinch roller (703) and shrink winding (704), the inside top swing joint of bundling cavity (2) has shrink winding (704), the bottom fixedly connected with of shrink winding (704) presses area (702), press the top swing joint of area (702) to have pinch roller (703), the top fixedly connected with compression spring (701) of pinch roller (703), press area (702) to constitute extending structure through compression spring (701) and shrink winding (704).

4. The wire tying packaging device of claim 1, wherein: one side of the feeding plate (1002) is provided with a rack which is meshed with the gear (1007), flattening textures are uniformly distributed on the other side of the feeding plate (1002), and the sliding rod (1004) and the fixed frame (1003) form a clamping structure.

5. The wire tying packaging device of claim 1, wherein: the buffer structure (13) comprises a bottom plate (1301), a buffer spring (1302), a telescopic block (1303), a telescopic groove (1304), a support rod (1305), a transverse plate (1306), a sliding groove (1307) and a sliding block (1308), wherein the bottom plate (1301) is installed on one side of the base (1), the telescopic block (1303) is fixedly connected to the top end of the bottom plate (1301), the telescopic groove (1304) is movably connected to the top end of the telescopic block (1303), and the telescopic block (1303) and the telescopic groove (1304) form a clamping structure.

6. The wire tying packaging device of claim 5, wherein: the telescopic trough is characterized in that supporting rods (1305) are movably connected between the telescopic trough (1304) and the bottom plate (1301), two groups of supporting rods (1305) are arranged, a buffer spring (1302) is fixedly connected between the supporting rods (1305), a sliding block (1308) is fixedly connected to one side of each supporting rod (1305), a sliding groove (1307) is movably connected to the bottom end of each sliding block (1308), and the sliding blocks (1308) and the sliding grooves (1307) form sliding connection.

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