CN220865768U - Full-automatic cardboard winding and binding machine - Google Patents

Abstract

The utility model relates to the technical field of winding and binding equipment, in particular to a full-automatic paperboard winding and binding machine, which comprises a machine table, wherein a paperboard storage rack, a push plate mechanism, a clamping wire feeding mechanism, a tension mechanism, a paperboard winding mechanism, a wire discharging mechanism, a cutting mechanism, a plate unloading mechanism and a sliding plate are arranged on the machine table, the central part of the machine table is used as a paperboard winding and binding area, the paperboard storage rack and the push plate mechanism are arranged in the right side area of the paperboard winding and binding area, paperboard workpieces are piled and stored in the paperboard storage rack, the clamping wire feeding mechanism and the tension mechanism are arranged in the left side area of the paperboard winding and binding area, the paperboard winding mechanism, the wire discharging mechanism and the cutting mechanism are arranged in the front side area of the paperboard winding and binding area side by side, and the plate unloading mechanism and the sliding plate are arranged in the rear side area of the paperboard winding and binding area. The utility model has reasonable structural design, automatically feeds the sheet material into the cardboard wire winding mechanism, automatically pierces the wire head and arranges the wire for wire winding, cuts the wire after finishing and automatically discharges, thereby meeting the market demand.

Description

Full-automatic cardboard winding and binding machine

Technical Field

The utility model relates to the technical field of wire winding and binding equipment, in particular to a full-automatic paperboard wire winding and binding machine.

Background

At present, the structure of the wire-binding and paper-winding board for gardens is shown in fig. 4, and the wire-binding and paper-winding board for gardens is manually wound, so that the efficiency is low and the labor intensity is high.

In order to improve production efficiency, semi-automatic paperboard winding machines are used in the market, manual paperboard placing and threading are adopted, materials are manually taken after winding is finished, the semi-automatic winding machines can improve certain efficiency, but the whole process is needed to participate manually, the automation degree is low, and the efficiency is difficult to meet increasing market demands.

Disclosure of utility model

The utility model aims to overcome the problems in the prior art and provide a full-automatic paperboard wire winding and binding machine.

In order to achieve the technical purpose and the technical effect, the utility model is realized by the following technical scheme:

The utility model provides a full-automatic paperboard winding and binding machine, which comprises a machine table, wherein a paperboard storage rack, a push plate mechanism, a clamping wire feeding mechanism, a tension mechanism, a paperboard wire winding mechanism, a wire discharging mechanism, a cutting mechanism, a plate unloading mechanism and a material sliding plate are arranged on the machine table;

The paper board winding mechanism receives the paper board material and turns over the paper board material to be in a vertical state, the clamping wire feeding mechanism sends the binding wire passing through the tension mechanism to the paper board winding and binding area, the binding wire passes through the perforations on the paper board storage frame, the paper board winding mechanism and the wire arranging mechanism cooperate to uniformly wind the binding wire on the paper board material, after winding is finished, the cutting mechanism cuts the binding wire, and the plate unloading mechanism transfers the paper board storage frame with the binding wire wound to the upper part of the material sliding plate, and sends the binding wire to the collecting area through the material sliding plate.

Further, in the full-automatic paperboard winding and wire binding machine, a stacking area for conveniently stacking the paperboard components is arranged in the paperboard storage rack, and the upper end of the stacking area is a feeding port.

Further, in the full-automatic cardboard wire winding and binding machine, the push plate mechanism comprises a first support, a horizontal push plate, a first transverse push rod, a first guide rail and a first sliding block, wherein the first support is arranged on the machine table, the first transverse push rod and the first guide rail are arranged on the first support, movable ends of the horizontal push plate and the first transverse push rod are fixed, and the first sliding block limited on the first guide rail is arranged on the lower side of the horizontal push plate.

Further, in the full-automatic cardboard wire winding and binding machine, the centre gripping wire feeding mechanism includes first circulation conveyer belt, connecting block, first mounting panel, second mounting panel, perforation guide block, the horizontal push rod of second, clamping jaw mounting panel and first mechanical clamping jaw, first circulation conveyer belt is installed on the board, the area body of first circulation conveyer belt supports the first mounting panel of vertical setting through the connecting block, install the second mounting panel and the horizontal push rod of second that the level set up on the first mounting panel, install a plurality of perforation guide blocks that are convenient for tie wire to pass on the second mounting panel, first mechanical clamping jaw is installed through the clamping jaw mounting panel to the expansion end of the horizontal push rod of second.

Further, in the full-automatic paperboard winding and binding machine, the tension mechanism comprises a tension frame, tension wheels, side frame plates and guide rings, wherein the tension frame is arranged on the machine table, two rows of tension wheels which are distributed in a staggered mode are arranged in the tension frame, and the side frame plates with the guide rings are arranged at two ends of the tension frame.

Further, in the full-automatic cardboard wire winding machine, the cardboard wire winding mechanism includes second support, pivot, bearing, mounting disc, second mechanical clamping jaw, first motor, first drive belt assembly, second support and first motor are installed on the board, install the cover on the second support and establish the bearing in the pivot outside, the second mechanical clamping jaw is installed through the mounting disc to the one end of pivot, the other end of pivot carries out the transmission through first drive belt assembly and is connected with the output of first motor.

Further, in the full-automatic cardboard around wire binding machine, the wire arranging mechanism comprises a third support, a second motor, the lead screw, the second guide rail, a second slider, first vertical push rod, the third mounting panel, third horizontal push rod, the fourth mounting panel, first clamp line post, first vertical push rod and second clamp line post, the third support is fixed on the board, install second motor and second guide rail on the third support, the loose end of second motor is connected with the lead screw, second slider slip restriction is on the second guide rail, be equipped with in the second slider with lead screw groove of lead screw complex, the upper end of second slider is fixed with first vertical push rod, the third horizontal push rod is installed through the third mounting panel to the loose end of first vertical push rod, first clamp line post and first vertical push rod are installed through the fourth mounting panel to the loose end of third horizontal push rod, first vertical push rod's loose end has the second clamp line post, form clamp line region between first clamp line post and the second clamp line post.

Further, in the full-automatic paperboard winding and wire binding machine, the cutting mechanism comprises a fourth support, a second longitudinal push rod, a fifth mounting plate and a third mechanical clamping jaw, the fourth support is fixed on the machine table, the second longitudinal push rod is mounted on the fourth support, and the third mechanical clamping jaw is mounted at the movable end of the second longitudinal push rod through the fifth mounting plate.

Further, in the full-automatic paperboard winding and binding machine, the plate unloading mechanism comprises a third longitudinal push rod, a sixth mounting plate and a fourth mechanical clamping jaw, and the movable end of the third longitudinal push rod is provided with the fourth mechanical clamping jaw through the sixth mounting plate.

Further, in the full-automatic paperboard winding and binding machine, two movable claw parts of the first mechanical clamping jaw, the second mechanical clamping jaw and the fourth mechanical clamping jaw are respectively provided with clamping plates, and two movable claw parts of the third mechanical clamping jaw are provided with clamping scissors.

The beneficial effects of the utility model are as follows:

The utility model has reasonable structural design, is mainly composed of a machine table, a paperboard storage rack, a push plate mechanism, a clamping wire feeding mechanism, a tension mechanism, a paperboard wire winding mechanism, a wire arranging mechanism, a cutting mechanism, a plate unloading mechanism and a sliding plate which are arranged on the machine table, the components are cooperatively matched, paper plate materials are automatically fed into the paperboard wire winding mechanism, a wire head and a wire arranging wire winding wire are automatically penetrated, the wire is cut and bound after the completion, and automatic discharging is carried out and falls into a turnover box, so that manual participation is not needed in the whole process, the automation degree is high, and the increasing market demands are met with high efficiency.

Of course, it is not necessary for any one product to practice the utility model to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of the whole structure of the present utility model;

FIG. 2 is a schematic top view of the entire structure of the present utility model;

FIG. 3 is a schematic diagram of the overall front view structure of the present utility model;

FIG. 4 is a schematic view of a sheet member of the present utility model;

FIG. 5 is a schematic perspective view of a paperboard storage rack and pusher mechanism of the present utility model;

FIG. 6 is a schematic perspective view of a wire feeder of the present utility model;

FIG. 7 is a schematic perspective view of a tension mechanism according to the present utility model;

FIG. 8 is a schematic perspective view of a paperboard winding mechanism in accordance with the present utility model;

FIG. 9 is a schematic diagram of the front view of the filament winding mechanism of the present utility model;

FIG. 10 is a schematic perspective view of a wire arranging mechanism according to the present utility model;

FIG. 11 is a schematic diagram of a front view of a wire arranging mechanism according to the present utility model;

FIG. 12 is a schematic perspective view of a cutting mechanism according to the present utility model;

fig. 13 is a schematic perspective view of a plate unloading mechanism in the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The embodiment provides a full-automatic paperboard winding and binding machine, as shown in fig. 1-3, including a machine 1, install paperboard storage rack 2, push pedal mechanism 3, centre gripping wire feed mechanism 4, tension mechanism 5, paperboard winding mechanism 6, arrange silk mechanism 7, cutting mechanism 8, unload trigger mechanism 9 and slide board 10 on the machine 1, the central part of machine 1 is as paperboard winding and binding district, paperboard storage rack 2 and push pedal mechanism 3 set up in the right side region of paperboard winding and binding district, paperboard storage rack 2 pile up neatly has deposited paperboard material 11, centre gripping wire feed mechanism 4 and tension mechanism 5 set up in the left side region of paperboard winding and binding district, paperboard winding mechanism 6, arrange silk mechanism 7 and cutting mechanism 8 set up in the front side region of paperboard winding and binding district side by side, unload trigger mechanism 9 and slide board 10 set up in the rear side region of paperboard winding and binding district.

As shown in fig. 4, the width of the middle part of the sheet material member 11 is smaller than the width of the end heads at the two ends, and a perforation for facilitating the penetration of the binding wire 12 is formed at the joint of one end head and the middle part.

As shown in fig. 5, a stacking area for stacking the paper sheet material 11 is arranged in the paper sheet storage rack 2, and a feeding port is arranged at the upper end of the stacking area. The push plate mechanism 3 comprises a first support 301, a horizontal push plate 302, a first transverse push rod 304, a first guide rail 303 and a first sliding block, wherein the first support 301 is arranged on the machine table 1, the first transverse push rod 304 and the first guide rail 303 are arranged on the first support 301, movable ends of the horizontal push plate 302 and the first transverse push rod 304 are fixed, and the first sliding block which is limited on the first guide rail 303 in a sliding way is arranged on the lower side of the horizontal push plate 302.

As shown in fig. 6, the wire clamping and feeding mechanism 4 includes a first endless conveyor belt 401, a connecting block 402, a first mounting plate 403, a second mounting plate 404, a perforation guide block 405, a second transverse push rod 406, a clamping jaw mounting plate 407 and a first mechanical clamping jaw 408, wherein the first endless conveyor belt 401 is mounted on the machine table 1, a first mounting plate 403 vertically arranged is supported by a belt body of the first endless conveyor belt 401 through the connecting block 402, a second mounting plate 404 and a second transverse push rod 406 horizontally arranged are mounted on the first mounting plate 403, a plurality of perforation guide blocks 405 which are convenient for the wire tying 12 to pass through are mounted on the second mounting plate 404, and a first mechanical clamping jaw 408 is mounted at a movable end of the second transverse push rod 406 through the clamping jaw mounting plate 407.

As shown in fig. 7, the tension mechanism 5 includes a tension frame 501, tension wheels 502, side frame plates 503 and guide rings 504, the tension frame 501 is mounted on the machine 1, two rows of tension wheels 502 distributed in a staggered manner are mounted in the upper tension frame 501, and the side frame plates 503 with the guide rings 504 are mounted at two ends of the tension frame 501.

As shown in fig. 8-9, the cardboard wire winding mechanism 6 includes a second support 601, a rotating shaft 602, a bearing 603, a mounting plate 604, a second mechanical clamping jaw 605, a first motor 606, and a first transmission belt assembly 607, wherein the second support 601 and the first motor 606 are mounted on the machine table 1, the bearing 603 sleeved outside the rotating shaft 602 is mounted on the second support 601, one end of the rotating shaft 602 is provided with the second mechanical clamping jaw 605 through the mounting plate 604, and the other end of the rotating shaft 602 is in transmission connection with the output end of the first motor 606 through the first transmission belt assembly 607.

As shown in fig. 10 to 11, the wire arranging mechanism 7 includes a third support 701, a second motor 702, a screw rod, a second guide rail 703, a second slider 704, a first vertical push rod 705, a third mounting plate 706, a third lateral push rod 707, a fourth mounting plate 708, a first wire clamping post 709, a first longitudinal push rod 710 and a second wire clamping post 711, the third support 701 is fixed on the machine 1, the second motor 702 and the second guide rail 703 are mounted on the third support 701, the movable end of the second motor 702 is connected with the screw rod, the second slider 704 is slidably limited on the second guide rail 703, a screw rod groove matched with the screw rod is provided in the second slider 704, a first vertical push rod 705 is fixed at the upper end of the second slider 704, the movable end of the first vertical push rod 705 is mounted with the third lateral push rod 707 through the third mounting plate 706, the movable end of the third lateral push rod 707 is mounted with the first wire clamping post 709 and the first longitudinal push rod 710 through the fourth mounting plate 708, the movable end of the first longitudinal push rod 710 is mounted with the second wire clamping post 709, and a wire clamping area 711 is formed between the first wire clamping post 709 and the second wire clamping post 711.

As shown in fig. 12, the cutting mechanism 8 includes a fourth support 801, a second longitudinal push rod 802, a fifth mounting plate 803, and a third mechanical clamping jaw 804, the fourth support 801 is fixed on the machine table 1, the second longitudinal push rod 802 is mounted on the fourth support 801, and the third mechanical clamping jaw 804 is mounted on the movable end of the second longitudinal push rod 802 through the fifth mounting plate 803.

As shown in fig. 13, the plate unloading mechanism 9 includes a third longitudinal push rod 901, a sixth mounting plate 902, and a fourth mechanical jaw 903, the movable end of the third longitudinal push rod 901 being mounted with the fourth mechanical jaw 903 via the sixth mounting plate 902.

In this embodiment, two movable claws of each of the first mechanical claw 408, the second mechanical claw 605 and the fourth mechanical claw 903 are mounted with a clamping plate, and two movable claws of the third mechanical claw 804 are mounted with a clamping shears.

One specific application of this embodiment is: the push plate mechanism 3 pushes the paperboard material piece 11 in the paperboard storage frame 2 in a horizontal state into the paperboard winding wire area, the paperboard winding wire mechanism 6 receives the paperboard material piece 11 and turns the paperboard material piece into a vertical state, the clamping wire feeding mechanism 4 sends the wire 12 passing through the tension mechanism 5 into the paperboard winding wire area, and the wire 12 passes through the perforation on the paperboard storage frame 2. In order to prevent the binding wires 12 from being separated from the paperboard storage rack 2, a jackscrew bending mechanism can be added on the machine table 1, and a vertical cylinder drives a jackscrew to perform bending operation on the exposed binding wires 12. The paperboard winding mechanism 6 and the wire arranging mechanism 7 are matched to enable the binding wires 12 to be uniformly wound on the paperboard material piece 11, after winding is finished, the cutting mechanism 8 cuts off the binding wires 12, the paperboard storage rack 2 with the binding wires wound is transferred to the upper portion of the sliding plate 10 by the plate unloading mechanism 9, and the paperboard storage rack is sent to a collecting area through the sliding plate 10.

The preferred embodiments of the utility model disclosed above are merely helpful in explaining the utility model. The preferred embodiments are not exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. Full-automatic cardboard is around binding machine, including board (1), its characterized in that: the machine is characterized in that a paperboard storage rack (2), a push plate mechanism (3), a clamping wire feeding mechanism (4), a tension mechanism (5), a paperboard wire winding mechanism (6), a wire arranging mechanism (7), a cutting mechanism (8), a plate unloading mechanism (9) and a sliding plate (10) are arranged on the machine table (1), the central part of the machine table (1) is used as a paperboard wire winding area, the paperboard storage rack (2) and the push plate mechanism (3) are arranged in the right side area of the paperboard wire winding area, paperboard materials (11) are stacked and stored in the paperboard storage rack (2), the clamping wire feeding mechanism (4) and the tension mechanism (5) are arranged in the left side area of the paperboard wire winding area, the paperboard wire winding mechanism (6), the wire arranging mechanism (7) and the cutting mechanism (8) are arranged in the front side area of the paperboard wire winding area side by side, and the plate unloading mechanism (9) and the sliding plate (10) are arranged in the rear side area of the paperboard wire winding area;

The paper board winding and binding device is characterized in that the push plate mechanism (3) pushes paper board material pieces (11) which are in a horizontal state into a paper board winding and binding area, the paper board winding and binding mechanism (6) receives the paper board material pieces (11) and turns the paper board material pieces into a vertical state, the clamping wire feeding mechanism (4) conveys binding wires (12) which pass through the tension mechanism (5) into the paper board winding and binding area, the binding wires (12) penetrate through perforations in the paper board storage rack (2), the paper board winding mechanism (6) and the wire discharging mechanism (7) are matched to enable the binding wires (12) to be uniformly wound on the paper board material pieces (11), after winding is finished, the cutting mechanism (8) cuts off the binding wires (12), and the wire discharging mechanism (9) transfers the paper board storage rack (2) which is completed winding and binding wires to the upper portion of the sliding plate (10) to be conveyed into the collecting area through the sliding plate (10).

2. The fully automatic paperboard wire wrapping machine of claim 1, wherein: a stacking area which is convenient for stacking the paper sheet material pieces (11) is arranged in the paper sheet storage rack (2), and the upper end of the stacking area is a feeding port.

3. The fully automatic paperboard wire wrapping machine of claim 2, wherein: push pedal mechanism (3) include first support (301), horizontal push pedal (302), first horizontal push rod (304), first guide rail (303) and first slider, first support (301) are installed on board (1), install first horizontal push rod (304) and first guide rail (303) on first support (301), the expansion end of horizontal push pedal (302) and first horizontal push rod (304) is fixed, the first slider of slip restriction on first guide rail (303) is installed to the downside of horizontal push pedal (302).

4. A fully automatic cardboard wire winding machine according to claim 3, characterized in that: clamping wire feeding mechanism (4) are including first circulating conveyor belt (401), connecting block (402), first mounting panel (403), second mounting panel (404), perforation guide block (405), second transverse pushing rod (406), clamping jaw mounting panel (407) and first mechanical clamping jaw (408), first circulating conveyor belt (401) are installed on board (1), the area body of first circulating conveyor belt (401) supports through connecting block (402) has first mounting panel (403) of vertical setting, install second mounting panel (404) and second transverse pushing rod (406) of level setting on first mounting panel (403), install a plurality of perforation guide blocks (405) that are convenient for tie wire (12) to pass on second mounting panel (404), first mechanical clamping jaw (408) are installed through clamping jaw mounting panel (407) to the expansion end of second transverse pushing rod (406).

5. The fully automatic paperboard wire wrapping machine of claim 4 wherein: the tension mechanism (5) comprises a tension frame (501), tension wheels (502), side frame plates (503) and guide rings (504), wherein the tension frame (501) is arranged on a machine table (1), two rows of tension wheels (502) which are distributed in a staggered mode are arranged in the tension frame (501), and the side frame plates (503) with the guide rings (504) are arranged at two ends of the tension frame (501).

6. The fully automatic paperboard wire wrapping machine of claim 5 wherein: cardboard wire winding mechanism (6) include second support (601), pivot (602), bearing (603), mounting disc (604), second mechanical clamping jaw (605), first motor (606), first drive belt assembly (607), second support (601) and first motor (606) are installed on board (1), install on second support (601) cover and establish bearing (603) in the pivot (602) outside, second mechanical clamping jaw (605) are installed through mounting disc (604) to the one end of pivot (602), the other end of pivot (602) carries out the transmission through first drive belt assembly (607) with the output of first motor (606) and is connected.

7. The fully automatic paperboard wire wrapping machine of claim 6 wherein: the wire arranging mechanism (7) comprises a third support (701), a second motor (702), a screw rod, a second guide rail (703), a second sliding block (704), a first vertical push rod (705), a third mounting plate (706), a third transverse push rod (707), a fourth mounting plate (708), a first wire clamping column (709), a first vertical push rod (710) and a second wire clamping column (711), wherein the third support (701) is fixed on a machine table (1), the second motor (702) and the second guide rail (703) are arranged on the third support (701), the movable end of the second motor (702) is connected with the screw rod, the second sliding block (704) is limited on the second guide rail (703) in a sliding way, a screw rod groove matched with the screw rod is formed in the second sliding block (704), a first vertical push rod (705) is fixed at the upper end of the second sliding block (704), the third transverse push rod (707) is arranged at the upper end of the first vertical push rod (705) through the third mounting plate (706), the third vertical push rod (707) is arranged at the movable end of the third sliding rod (702) through the first vertical push rod (710), a wire clamping area is formed between the first wire clamping post (709) and the second wire clamping post (711).

8. The fully automatic paperboard wire wrapping machine of claim 7 wherein: the cutting mechanism (8) comprises a fourth support (801), a second longitudinal push rod (802), a fifth mounting plate (803) and a third mechanical clamping jaw (804), wherein the fourth support (801) is fixed on the machine table (1), the second longitudinal push rod (802) is mounted on the fourth support (801), and the third mechanical clamping jaw (804) is mounted at the movable end of the second longitudinal push rod (802) through the fifth mounting plate (803).

9. The fully automatic paperboard wire wrapping machine of claim 8 wherein: the plate unloading mechanism (9) comprises a third longitudinal push rod (901), a sixth mounting plate (902) and a fourth mechanical clamping jaw (903), and the movable end of the third longitudinal push rod (901) is provided with the fourth mechanical clamping jaw (903) through the sixth mounting plate (902).

10. The fully automatic paperboard wire wrapping machine of claim 9, wherein: two movable claw parts of the first mechanical clamping jaw (408), the second mechanical clamping jaw (605) and the fourth mechanical clamping jaw (903) are respectively provided with clamping plates, and two movable claw parts of the third mechanical clamping jaw (804) are provided with clamping scissors.