CN113929052B - Automatic bag making machine for buckwheat hull filling pad - Google Patents

Abstract

The invention discloses an automatic bagging machine for buckwheat hull filling pads, which is favorable for realizing automatic continuous production. The automatic bagging machine for the buckwheat hull filling pad comprises a machine frame; one end of the rack is provided with a transverse sliding chute; the other end of the rack is provided with a vertical guide pillar; a sliding table is arranged in the transverse sliding groove; one end of the sliding table is provided with a blank holder; a first die set, a second die set and a top pressure plate are sequentially arranged above the sliding table from bottom to top; one end of the rack is provided with a vertical guide pillar; one end of the top pressure plate is provided with a first sewing device; and a second sewing device is arranged at one end of the bottom of the transverse sliding groove. The automatic bag making machine for the buckwheat hull filling pad can effectively improve the production efficiency of filling bags and reduce the production cost.

Description

Automatic bag making machine for buckwheat hull filling pad

Technical Field

The invention relates to a filling pad, in particular to an automatic bagging machine for a buckwheat hull filling pad.

Background

It is well known that: when the existing buckwheat hull filling pad is manufactured, a filling bag needs to be sewn at first, and buckwheat hulls need to be collected after the filling bag is prepared. Then the buckwheat hulls are filled into the bag, thereby realizing the manufacture of the buckwheat hull filling cushion.

As shown in fig. 7, the existing filling bag generally comprises an upper layer of cloth and a lower layer of cloth, and a spacer is arranged in a gap between the upper layer of cloth and the lower layer of cloth; the spacers divide the gap between the upper and lower layers of cloth into a plurality of individual filled cavities 102; and one side of the filling bag is provided with an opening, and the opening is provided with a sealing edge 101.

The existing filling bag manufacturing method is obtained by sewing by a sewing device; therefore, the workload of workers is large, the operation is complex, the production efficiency is low, and the production cost is high.

Disclosure of Invention

The invention aims to solve the technical problem of providing an automatic bagging machine for buckwheat hull filling pads, which is beneficial to realizing automatic continuous production.

The technical scheme adopted by the invention for solving the technical problems is as follows: an automatic bag-making machine for buckwheat hull filling pads comprises a machine frame; one end of the rack is provided with a transverse sliding chute; the other end of the rack is provided with a vertical guide pillar;

a sliding table is arranged in the transverse sliding groove; a linear driving device for driving the sliding table to move back and forth is arranged below the rack;

one end of the sliding table is provided with a blank holder; a first die set, a second die set and a top pressure plate are sequentially arranged above the sliding table from bottom to top; the first compression mould comprises a first supporting plate; one end of the first supporting plate is provided with first pressing blocks which extend transversely and are uniformly distributed; the vertical guide pillar penetrates through the other end of the first supporting plate;

the second die set includes a second support plate; one end of the second support plate is provided with second press blocks which extend transversely and are uniformly distributed; the vertical guide pillar penetrates through the other end of the second supporting plate;

the second compression mould is positioned above the first compression mould, and the first pressing block and the second pressing block are arranged in a crossed manner;

a first telescopic device is arranged between one end of the first supporting plate and the rack; a second telescopic device is arranged between one end of the second supporting plate and the rack; a third telescopic device is arranged between one end of the top pressure plate and the rack;

one side of one end of the transverse sliding chute is provided with a middle cloth conveying roller; the other side is provided with an installation platform; a fixed boss is arranged on the mounting platform; a rotary pressing block is arranged on the fixed boss;

one end of the top pressure plate is provided with a first sewing device; a second sewing device is arranged at one end of the bottom of the transverse sliding chute; the bottom of the sliding table, the top pressure plate and the transverse sliding groove are provided with wire passing holes; the wire passing hole in the sliding table is matched with the second pressing block; the wire passing hole in the top pressing plate is matched with the first pressing block; the wire passing hole at the bottom of the transverse sliding chute is matched with the wire passing hole on the sliding table; the first sewing device comprises a sewing thread head and a bobbin; the needle on the sewing thread head penetrates through the thread passing hole on the top pressing plate and sequentially penetrates through the upper-layer cloth and the middle-layer cloth to enter the bobbin to hook threads, so that the sewing of the upper-layer cloth and the middle-layer cloth is realized; the shuttle of the bobbin is driven by a micro motor, and the shuttle swinging frequency is matched with the vertical penetration frequency of the needle; the structure of the second sewing device is the same as that of the first sewing device.

Further, the linear driving device adopts a stepping motor; a linear rack is arranged at the bottom of the sliding table; the stepping motor is in transmission connection with the linear rack through a gear.

Furthermore, the first telescopic device, the second telescopic device and the third telescopic device all adopt hydraulic cylinders.

Furthermore, one end of the top pressure plate is provided with a balancing weight.

Furthermore, the edge pressing device comprises a cloth pressing lug arranged at one end of the sliding table; and the cloth pressing lug is provided with a rotary clamping plate.

The invention has the beneficial effects that: according to the automatic bagging machine for the buckwheat hull filling mat, the first die set and the second die set are arranged, so that the middle layer cloth can form a wave shape with U-shaped wave crests and wave troughs;

then the sliding table is started, the sliding table moves towards one side to draw out the upper layer cloth and the lower layer cloth, at the moment, the upper layer cloth is connected with the middle layer cloth through the sewing device on the top plate, and the lower layer cloth is connected with the middle layer cloth through the sewing device below the sliding table, so that the connected filling bag main body is drawn out in the moving process of the sliding table; then the filling bag body is taken away from the sliding table, and the bottom sealing is carried out, so that the preparation of the filling bag can be realized.

Therefore, the automatic bagging machine for the buckwheat hull filling pad can effectively improve the production efficiency of filling bags and reduce the production cost.

Drawings

Fig. 1 is a perspective view of an automatic bagging machine for buckwheat hull filling pads in an embodiment of the invention;

FIG. 2 is a front view of an automatic bagging machine for buckwheat hull fill pads in an embodiment of the invention;

FIG. 3 is a top view of an automatic bagging machine for buckwheat hull fill pads in an embodiment of the invention;

FIG. 4 is a left side view of an automatic bagging machine for buckwheat hull filling pads in an embodiment of the invention;

FIG. 5 is a right side view of an automatic bagging machine for buckwheat hull filling pads in an embodiment of the invention;

FIG. 6 is a cross-sectional view A-A of FIG. 2;

FIG. 7 is a cross-sectional view B-B of FIG. 3;

fig. 8 is a perspective view of a rear view of an automatic bagging machine for buckwheat hull fill pads in an embodiment of the invention;

FIG. 9 is a perspective view of an automatic bagging machine for buckwheat hull filling pads of an embodiment of the invention;

FIG. 10 is a schematic diagram of the bag opening of an automatic bag opening machine for buckwheat hull filling mats according to an embodiment of the present invention;

FIG. 11 is a schematic diagram showing the transverse structure of an automatic bagging machine for a buckwheat hull filling mat according to an embodiment of the present invention;

fig. 12 is a partial enlarged view of C in fig. 10;

FIG. 13 is a schematic view showing the structure of a sewing apparatus according to an embodiment of the present invention;

FIG. 14 is a schematic view showing the operation of the sewing apparatus according to the embodiment of the present invention;

the following are marked in the figure: 1-a frame, 2-a sliding table, 3-a first compression mould, 4-a second compression mould, 5-a top pressure plate, 6-a first sewing device, 7-a transverse sliding chute, 8-a first telescopic device, 9-a second telescopic device, 10-a third telescopic device, 11-a balancing weight, 12-a vertical guide pillar, 13-a fixed boss, 14-a rotary pressing block, 15-a middle cloth conveying roller, 16-a second sewing device, 17-a supporting leg, 100-a middle layer cloth, 200-a lower layer cloth and 300-an upper layer cloth.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

As shown in fig. 1 to 13, the automatic bagging machine for buckwheat husk filling mats of the invention comprises a frame 1; one end of the frame 1 is provided with a transverse chute 7; the other end of the frame 1 is provided with a vertical guide pillar 12;

a sliding table 2 is arranged in the transverse sliding groove 7; a linear driving device for driving the sliding table 2 to move back and forth is arranged below the rack 1;

one end of the sliding table 2 is provided with a blank holder; a first die set 3, a second die set 4 and a top pressure plate 5 are sequentially arranged above the sliding table 2 from bottom to top; one end of the frame 1 is provided with a vertical guide pillar 12;

the first die set 3 comprises a first support plate 32; one end of the first supporting plate 32 is provided with first pressing blocks 31 which extend transversely and are uniformly distributed; the vertical guide post 12 penetrates through the other end of the first supporting plate 32;

the second die set 4 comprises a second support plate 42; one end of the second support plate 42 is provided with second press blocks 41 which extend transversely and are uniformly distributed; the vertical guide post 12 passes through the other end of the second support plate 42;

the second compression mould 4 is positioned above the first compression mould 3, and the first pressing block 31 and the second pressing block 41 are arranged in a crossed manner;

a first telescopic device 8 is arranged between one end of the first supporting plate 32 and the frame 1; a second telescopic device 9 is arranged between one end of the second supporting plate 42 and the frame 1; a third telescopic device 10 is arranged between one end of the top pressure plate 5 and the rack 1;

one side of one end of the transverse sliding chute 7 is provided with a middle cloth conveying roller 15; the other side is provided with a mounting platform 101; a fixing boss 13 is arranged on the mounting platform 101; a rotary pressing block 14 is arranged on the fixed boss 13;

one end of the top pressure plate 5 is provided with a first sewing device 6; a second sewing device 16 is arranged at one end of the bottom of the transverse sliding chute 7; the bottoms of the sliding table 2, the top pressure plate 5 and the transverse sliding groove 7 are provided with wire passing holes 400; the wire passing hole 400 on the sliding table 2 is matched with the second pressing block 41; the wire passing hole 400 on the top pressing plate 5 is matched with the first pressing block 31; the wire passing hole 400 at the bottom of the transverse sliding chute 7 is matched with the wire passing hole 400 on the sliding table 2; the first sewing device 6 comprises a sewing thread head 61 and a bobbin 62; the needle on the sewing thread head 61 penetrates through the thread passing hole 400 on the top pressing plate 5, and sequentially penetrates through the upper layer cloth 300 and the middle layer cloth 100 to enter the bobbin 62 for thread hooking, so that the sewing of the upper layer cloth 300 and the middle layer cloth 100 is realized; the shuttle of the bobbin 62 is driven by a micro motor, and the shuttle swinging frequency is matched with the vertical penetration frequency of the needle; the second sewing device 16 has the same structure as the first sewing device.

In operation, as shown in fig. 14, the slide table 2 is first positioned at one end of the lateral slide groove 7; at the moment, the lower layer cloth is arranged on the sliding table 2, then the edge sealing of the lower layer cloth 200 is tightly pressed on the sliding table 2 through the edge pressing device on one side of the sliding table 2, and then the sliding table 2 is moved, so that the sliding table 2 is positioned right below the first compression molding die 4; then, one end of the middle layer cloth 100 of the middle cloth conveying roller 15 passes through the middle between the first die mould 4 and the second die mould 5, and is pressed on the fixed boss 13 through the rotary pressing block 14.

Then, the first stretching device 8 and the second stretching device 9 are started, so that the first compression mould 4 and the second compression mould 5 both move downwards and move to the wave shape that the middle layer cloth 100 forms the U-shaped wave crest and wave trough, the first compression mould 4 and the second compression mould 5 are braked, and the middle layer cloth 100 pressed on the lower layer cloth 200 is cut off from the middle cloth conveying roller 15; an automatic cutting device can be specifically arranged, or manual cutting is adopted;

then, the upper cloth 300 is placed over the second press mold 5 and the upper cloth 300 is pressed by the edge pressing device on the side of the slide table 2. Then, the third telescopic device 10 is started, so that the fixed pressing plate 5 presses the upper cloth 300 on the second pressing die 5;

then, the sliding table 2 is started to move, at this time, the first sewing device 6 connects the upper cloth 300 with the middle cloth 100, and the second sewing device 16 connects the lower cloth 200 with the middle cloth 100. After the sliding table 2 moves out of the lower part of the first compression mould 4, the sliding table 2 is braked, and then the edge pressing device is loosened to take down the prepared filling bag body.

Then, starting the first telescopic device 8, the second telescopic device 9 and the third telescopic device 10 to enable the first die set 3, the second die set 4 and the top pressure plate 5 to return to the initial positions; and repeating the steps to realize continuous production. In the subsequent step, the bottom sealing is carried out to realize the preparation of the filling bag.

In conclusion, the automatic bagging machine for the buckwheat hull filling mat is provided with the first die set and the second die set, so that the middle layer cloth can form a wave shape with U-shaped wave crests and wave troughs;

then the sliding table is started, the sliding table moves towards one side to draw out the upper layer cloth and the lower layer cloth, at the moment, the upper layer cloth is connected with the middle layer cloth through the sewing device on the top plate, and the lower layer cloth is connected with the middle layer cloth through the sewing device below the sliding table, so that the connected filling bag main body is drawn out in the moving process of the sliding table; then the filling bag body is taken away from the sliding table, and the bottom sealing is carried out, so that the preparation of the filling bag can be realized.

Therefore, the automatic bagging machine for the buckwheat hull filling pad can effectively improve the production efficiency of filling bags and reduce the production cost.

For convenience of control, it is preferable that the linear driving means employs a stepping motor 50; a linear rack is arranged at the bottom of the sliding table 2; the stepping motor 50 is in transmission connection with the linear rack through a gear 51. Specifically, the first telescopic device 8, the second telescopic device 9 and the third telescopic device 10 all adopt hydraulic cylinders.

In order to stabilize the structure, further, one end of the top pressure plate 5 is provided with a counterweight 11. In order to simplify the structure, preferably, the edge pressing device comprises a cloth pressing lug 22 arranged at one end of the sliding table 2; the cloth pressing lug 22 is provided with a rotating clamping plate 21.

Claims (5)

1. Automatic bagging machine of pad is filled to buckwheat shell, its characterized in that: comprises a frame (1); one end of the frame (1) is provided with a transverse chute (7); the other end of the rack (1) is provided with a vertical guide post (12);

a sliding table (2) is arranged in the transverse sliding groove (7); a linear driving device for driving the sliding table (2) to move back and forth is arranged below the rack (1);

one end of the sliding table (2) is provided with a blank holder; a first compression mould (3), a second compression mould (4) and a top pressure plate (5) are sequentially arranged above the sliding table (2) from bottom to top;

the first die (3) comprises a first support plate (32); one end of the first supporting plate (32) is provided with first pressing blocks (31) which extend transversely and are uniformly distributed; the vertical guide post (12) penetrates through the other end of the first supporting plate (32);

the second die set (4) comprises a second support plate (42); one end of the second support plate (42) is provided with second press blocks (41) which extend transversely and are uniformly distributed; the vertical guide post (12) penetrates through the other end of the second supporting plate (42);

the second compression mould (4) is positioned above the first compression mould (3), and the first pressing block (31) and the second pressing block (41) are arranged in a crossed manner;

a first telescopic device (8) is arranged between one end of the first supporting plate (32) and the rack (1); a second telescopic device (9) is arranged between one end of the second supporting plate (42) and the rack (1); a third telescopic device (10) is arranged between one end of the top pressure plate (5) and the rack (1);

one side of one end of the transverse sliding chute (7) is provided with a middle cloth conveying roller (15); the other side is provided with a mounting platform (101); a fixing boss (13) is arranged on the mounting platform (101); a rotary pressing block (14) is arranged on the fixed boss (13);

one end of the top pressure plate (5) is provided with a first sewing device (6); a second sewing device (16) is arranged at one end of the bottom of the transverse sliding chute (7); the bottom parts of the sliding table (2), the top pressure plate (5) and the transverse sliding groove (7) are provided with wire passing holes (400); the wire passing hole (400) on the sliding table (2) is matched with the second pressing block (41); the wire passing hole (400) on the top pressing plate (5) is matched with the first pressing block (31); the wire passing hole (400) at the bottom of the transverse sliding chute (7) is matched with the wire passing hole (400) on the sliding table (2); the first sewing device (6) comprises a sewing thread head (61) and a bobbin (62); a needle on the sewing thread head (61) penetrates through the thread passing hole (400) on the top pressing plate (5) and sequentially penetrates through the upper-layer cloth (300) and the middle-layer cloth (100) to enter the bobbin (62) for thread hooking, so that the upper-layer cloth (300) and the middle-layer cloth (100) are sewn; the shuttle of the bobbin (62) is driven by a micro motor, and the shuttle swinging frequency is matched with the vertical penetration frequency of the needle; the structure of the second sewing device (16) is the same as that of the first sewing device.

2. The automatic bagging machine of buckwheat hull-filled mats of claim 1, wherein: the linear driving device adopts a stepping motor (50); a linear rack is arranged at the bottom of the sliding table (2); the stepping motor (50) is in transmission connection with the linear rack through a gear (51).

3. The automatic bagging machine of buckwheat hull-filled mats of claim 2, wherein: and the first telescopic device (8), the second telescopic device (9) and the third telescopic device (10) adopt hydraulic cylinders.

4. The automatic bagging machine of buckwheat hull-filled mats of claim 3, wherein: one end of the top pressure plate (5) is provided with a balancing weight (11).

5. The automatic bagging machine of buckwheat hull-filled mats of claim 4, wherein: the edge pressing device comprises a cloth pressing lug (22) arranged at one end of the sliding table (2); the cloth pressing lug (22) is provided with a rotary clamping plate (21).

Images