CN212767145U - Sealing mechanism of automatic packing machine capable of achieving bag feeding type overlapping and staggered insertion - Google Patents

Abstract

The utility model provides a sealing mechanism for a bag type overlapping and staggered insertion automatic packing machine, a first guide shaft and a second guide shaft which are overlapped and staggered are arranged on a shell, a first push rod and a second push rod are respectively arranged on the first guide shaft and the second guide shaft, the driving device is internally provided with a grooved wheel, the synchronous grooved wheel is provided with a synchronous grooved wheel, the synchronous grooved wheel is integrated with a gear in the speed reducer, the grooved wheel is meshed with the first synchronous transmission device and the second synchronous transmission device, the driving device drives the first synchronous transmission device and the second synchronous transmission device to rotate through the grooved wheel, the first synchronous transmission device is connected with the first push rod through a sawtooth groove corresponding to the first clamping groove, the second synchronous transmission device is connected with the second push rod through a sawtooth groove corresponding to the second clamping groove, the first synchronous transmission device and the second synchronous transmission device drive the first push rod and the second push rod to move, and an electric heating device is installed in the shell; the garbage bag is reasonable in structure, so that the garbage bag is contacted with the electric heating device more closely.

Description

Sealing mechanism of automatic packing machine capable of achieving bag feeding type overlapping and staggered insertion

Technical Field

The utility model relates to a disposal bag seals the cutting equipment field, especially relates to a seal mechanism for crisscross inserting automatic packing machine of bag-type stack.

Background

The sealing device of the existing bag-feeding type automatic packaging machine completes the sealing of the needed garbage bag by the processes of feeding, clamping and heat sealing in sequence, wherein the clamping of the garbage bag is not compact, the sealing is not firm enough, the sealing speed is slow and the garbage bag is blocked when the garbage bag is gathered due to reasons such as power and the like.

Disclosure of Invention

In order to solve the above problem, the utility model provides a seal mechanism for crisscross inserting automatic packing machine of pocket type stack, it is rational in infrastructure, through two push rod push rods one, two propulsive modes simultaneously with the disposal bag impel electric heater unit on make the disposal bag have electric heater unit contact more comprehensive, the contact surface contact incomplete phenomenon of effectual avoiding for the disposal bag is inseparabler with the electric heater unit contact, the speed and the firm degree of sealing of disposal bag have been promoted.

The technical scheme of the utility model is that: the sealing mechanism comprises a shell, a first synchronous transmission device, a first guide rod support, a first guide shaft, a first driven wheel, a driving device, a first push rod, a second synchronous transmission device, a second driven wheel, a second guide rod support, a second guide shaft, a second push rod, a first screw hole end part, a first shaft, a first hole, a grooved pulley, a first sliding hole, a first clamping groove, an end part, a second hole, a second screw hole end part, a second shaft, a second sliding hole, a second clamping groove and a groove, wherein the shell is provided with the first guide shaft and the second guide shaft which are overlapped and staggered, the first push rod and the second push rod are respectively arranged on the first guide shaft and the second guide shaft, the driving device is internally provided with the grooved pulley, the synchronous grooved pulley is arranged on the synchronous grooved pulley and integrated with a gear in a speed reducer, the grooved pulley is meshed with the first synchronous transmission device and the second synchronous transmission device, and drives the first synchronous transmission device, the synchronous transmission device II rotates, and the first push rod is provided with a first sliding hole, a first clamping groove and an end part; a second sliding hole, a second clamping groove and a groove are formed in the second push rod; the first synchronous transmission device is connected with the first push rod through a sawtooth groove corresponding to the first clamping groove, the second synchronous transmission device is connected with the second push rod through a sawtooth groove corresponding to the second clamping groove, the first synchronous transmission device and the second synchronous transmission device drive the first push rod and the second push rod to move, and an electric heating device is installed in the shell; the first push rod is connected with the first guide shaft in a sliding mode through the first sliding hole; the second push rod is connected with the second guide shaft in a sliding mode through a second sliding hole; the end part of the first push rod is inserted into the groove of the second push rod;

the first guide rod bracket is provided with a first screw hole end part and a first shaft, and the second guide rod bracket is provided with a second screw hole end part and a second shaft; the first guide rod bracket is fixed on the shell by a screw which penetrates through the first end part of the screw hole; the guide rod bracket II is fixed on the shell by a screw which penetrates through the screw hole end part II;

a first hole is formed in the driven wheel I, and a second hole is formed in the driven wheel II; the first driven wheel is respectively penetrated through the first hole through a metal shaft, and the first shaft is fixed on the first guide rod bracket; the driven wheel II is respectively fixed on the guide rod bracket II through the hole II and the shaft II through a metal shaft.

Optionally, when the sealing mechanism of the bag-type automatic packaging machine is started, the driving device drives the first synchronous transmission device and the second synchronous transmission device to rotate, the first synchronous transmission device and the second synchronous transmission device drive the first push rod and the second push rod to move, the first push rod and the second push rod stop moving when the second push rod reaches a preset position, the first push rod continues to push the garbage bag to the electric heating device, the electric heating device is started to seal and fuse the garbage bag, and the driving device drives the first synchronous transmission device and the second synchronous transmission device to be started reversely at the same time to drive the first push rod and the second push rod to return to the original position.

Optionally, the first push rod and the second push rod move in a reciprocating manner by driving the first synchronous transmission device and the second synchronous transmission device which are installed at one ends of the first push rod and the second push rod by the driving device.

Optionally, the housing is of a rectangular structure.

Optionally, the housing is provided with a plurality of reinforcing ribs.

Compared with the prior art, the beneficial effects of the utility model are that: it is rational in infrastructure, impel electric heater unit with the disposal bag through two push rod push rods one, two propulsive modes simultaneously on make the disposal bag have electric heater unit contact more comprehensive, the contact surface contact incomplete phenomenon of effectual avoiding to drive arrangement is all installed to push rod one, push rod two, makes the disposal bag more inseparable with the electric heater unit contact, has promoted the speed and the firm degree of sealing of disposal bag.

Drawings

The invention is further explained below with reference to the figures:

FIG. 1 is a block diagram of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a block diagram of the present invention;

FIG. 4 is a block diagram of the present invention;

FIG. 5 is a block diagram of the present invention;

FIG. 6 is a view showing the connection between the end portion and the groove of the present invention;

FIG. 7 is a structural diagram of a first synchronous transmission device of the present invention connected to a first push rod;

FIG. 8 is a structural diagram of the connection between the second synchronous transmission device and the second push rod of the present invention;

FIG. 9 is a structural diagram of the guide bar bracket II of the present invention connected to the metal shaft;

FIG. 10 is a view of the first guide bar bracket of the present invention connected to a metal shaft;

shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10: 1. the device comprises a shell, 2, a first synchronous transmission device, 3, a first guide rod support, 4, a first guide shaft, 5, a first driven wheel, 6, a driving device, 7, a first push rod, 8, a second synchronous transmission device, 9, a second driven wheel, 10, a second guide rod support, 11, a second guide shaft, 12, a second push rod, 3-1, a first screw hole end, 3-2, a first shaft, 5-1, a first hole, 6-2, a grooved pulley, 7-1, a first sliding hole, 7-2, a first clamping groove, 7-3, an end, 9-1, a second hole, 10-1, a second screw hole end, 10-2, a second shaft, 12-1, a second sliding hole, 12-2, a second clamping groove, 12-3, a groove, 13, an electric heating device, 14, a metal shaft, 15 and a reinforcing rib.

Detailed Description

The present invention will be described in further detail with reference to the drawings, which are only used for explaining the present invention, and are schematic illustrations of the embodiments of the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "fixed" and "mounted" are to be understood broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, a sealing mechanism of a bag feeding type overlapping and interleaving insertion automatic packer comprises a shell 1, a synchronous transmission device I2, a guide rod bracket I3, a guide shaft I4, a driven wheel I5, a driving device 6, a push rod I7, a synchronous transmission device II 8, a driven wheel II 9, a guide rod bracket II 10, a guide shaft II 11, a push rod II 12, a screw hole end part I3-1, a shaft I3-2, a hole I5-1, a grooved pulley 6-2, a sliding hole I7-1, a clamping groove I7-2, an end part 7-3, a hole II 9-1, a screw hole end part II 10-1, a shaft II 10-2, a sliding hole II 12-1, a clamping groove II 12-2 and a groove 12-3, wherein the shell 1 is provided with the guide shaft I4 and the guide shaft II 11 which are overlapped and interleaving, a first push rod 7 and a second push rod 12 are respectively arranged on the first guide shaft 4 and the second guide shaft 11, a grooved wheel 6-2 is arranged in the driving device 6, a synchronous grooved wheel is arranged on the synchronous grooved wheel 6-2 and is meshed with a gear in the driving device 6, the grooved wheel 6-2 is meshed with a first synchronous transmission device 2 and a second synchronous transmission device 8, the driving device 6 drives the first synchronous transmission device 2 and the second synchronous transmission device 8 to rotate through the grooved wheel 6-2, and a first sliding hole 7-1, a first clamping groove 7-2 and an end part 7-3 are arranged on the first push rod 7; the second push rod 12 is provided with a second sliding hole 12-1, a second clamping groove 12-2 and a groove 12-3; the synchronous transmission device I2 is connected with the push rod I7 through a sawtooth groove corresponding to the clamping groove I7-2, the synchronous transmission device II 8 is connected with the push rod II 12 through a sawtooth groove corresponding to the clamping groove II 12-2, the synchronous transmission device I2 and the synchronous transmission device II 8 drive the push rod I7 and the push rod II 12 to move, and an electric heating device 13 is installed in the shell 1; the first push rod 7 is in sliding connection with the first guide shaft 4 through a first sliding hole 7-1; the second push rod 12 is connected with the second guide shaft 11 in a sliding mode through a second sliding hole 12-1; the end part 7-3 of the first push rod 7 is inserted into the groove 12-3 of the second push rod 12;

a screw hole end part I3-1 and a shaft I3-2 are arranged on the guide rod bracket I3, and a screw hole end part II 10-1 and a shaft II 10-2 are arranged on the guide rod bracket II 10; the guide rod bracket I3 is fixed on the shell 1 by a screw which penetrates through the screw hole end part I3-1; the guide rod bracket II 10 is fixed on the shell 1 by a screw which penetrates through the screw hole end part II 10-1;

a first hole 5-1 is formed in the driven wheel I5, and a second hole 9-1 is formed in the driven wheel II 9; the driven wheel I5 is fixed on the guide rod bracket I3 through a metal shaft 14 and a shaft I3-2 respectively passing through a hole I5-1; the second driven wheel 9 is fixed on the second guide rod bracket 10 through a second metal shaft 14 passing through a second hole 9-1 and a second shaft 10-2 respectively.

Optionally, when the sealing mechanism of the bag-type automatic packaging machine is started, the driving device 6 drives the first synchronous transmission device 2 and the second synchronous transmission device 8 to rotate, the first synchronous transmission device 2 and the second synchronous transmission device 8 drive the first push rod 7 and the second push rod 12 to move, when the second push rod 12 reaches a preset position, the first push rod 7 stops moving, the first push rod 7 continues to push the garbage bag to the electric heating device 13, the electric heating device 13 is started to seal and fuse the garbage bag, and the driving device 6 drives the first synchronous transmission device 2 and the second synchronous transmission device 8 to simultaneously start reversely to drive the first push rod 7 and the second push rod 12 to return to the original position.

Optionally, the first push rod 7 and the second push rod 12 move in a reciprocating manner by driving the first synchronous transmission device 2 and the second synchronous transmission device 8 which are installed at one ends of the first push rod and the second push rod by the driving device 6.

Optionally, the housing 1 has a rectangular structure.

Optionally, a plurality of reinforcing ribs 15 are arranged on the housing 1.

When the structure is used, the structure comprises a first guide shaft 4, a second guide shaft 11, a first push rod 7 and a second push rod 12, wherein the first guide shaft and the second guide shaft are overlapped and staggered, and the first push rod 7 and the second push rod 12 are arranged on two groups of guide shafts, the first push rod 7 and the second push rod 12 move in a reciprocating mode through a first synchronous transmission device 2 and a second synchronous transmission device 8 which are driven by a driving device 6 and arranged at one ends, a grooved sheave 6-2 is arranged inside the driving device 6, the grooved sheave 6-2 is meshed with the first synchronous transmission device 2 and the second synchronous transmission device 8, and an electric heating device is arranged on the opposite side of the push; when a sealing mechanism of the bag type automatic packaging machine is started, the driving device 6 drives the first synchronous transmission device 2 and the second synchronous transmission device 8 to rotate, the first push rod 7 and the second push rod 12 are driven, when the second push rod 12 reaches a preset position, the first push rod 7 continues to be pushed, the garbage bag is pushed to the electric heating device, the electric heating device is started, the garbage bag is sealed and fused, the driving device 6 drives the first synchronous transmission device 2 and the second synchronous transmission device 8 to be started reversely at the same time, and the first push rod 7 and the second push rod 12 are driven to return to the original position.

The utility model discloses rational in infrastructure, through two push rod push rods one 7, two 12 propulsive modes simultaneously with the disposal bag impel electric heater unit on make the disposal bag have the electric heater unit contact more comprehensive, the contact surface contact incompleteness phenomenon of effectual avoiding to drive arrangement 6 is all installed to push rod one 7, push rod two 12, makes the disposal bag more inseparable with the electric heater unit contact, has promoted the speed and the firm degree of sealing of disposal bag.

The above description is illustrative of the present invention and is not to be construed as limiting thereof, as numerous modifications and variations will readily occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (5)

1. A sealing mechanism of a bag-feeding type overlapping staggered insertion automatic packing machine comprises a shell (1), a synchronous transmission device I (2), a guide rod bracket I (3), a guide shaft I (4), a driven wheel I (5), a driving device (6), a push rod I (7), a synchronous transmission device II (8), a driven wheel II (9), a guide rod bracket II (10), a guide shaft II (11), a push rod II (12), a screw hole end I (3-1), a shaft I (3-2), a hole I (5-1), a grooved wheel (6-2), a sliding hole I (7-1), a clamping groove I (7-2), an end part (7-3), a hole II (9-1), a screw hole end part II (10-1), a shaft II (10-2), a sliding hole II (12-1), a clamping groove II (12-2) and a groove (12-3), the method is characterized in that: the shell (1) is provided with a first guide shaft (4) and a second guide shaft (11) which are overlapped and staggered, the first guide shaft (4) and the second guide shaft (11) are respectively provided with a first push rod (7) and a second push rod (12), a grooved pulley (6-2) is arranged inside the driving device (6), a synchronous grooved pulley is arranged on the synchronous grooved pulley (6-2), the synchronous grooved pulley is meshed with a gear in the driving device (6), the grooved pulley (6-2) is meshed with the first synchronous transmission device (2) and the second synchronous transmission device (8), the driving device (6) drives the first synchronous transmission device (2) and the second synchronous transmission device (8) to rotate through the grooved pulley (6-2), and the first push rod (7) is provided with a first slide hole (7-1), a first clamping groove (7-2) and an end part (7-3); a second sliding hole (12-1), a second clamping groove (12-2) and a groove (12-3) are formed in the second push rod (12); the synchronous transmission device I (2) is connected with the push rod I (7) through a sawtooth groove corresponding to the clamping groove I (7-2), the synchronous transmission device II (8) is connected with the push rod II (12) through a sawtooth groove corresponding to the clamping groove II (12-2), the synchronous transmission device I (2) and the synchronous transmission device II (8) drive the push rod I (7) and the push rod II (12) to move, and an electric heating device (13) is installed in the shell (1); the first push rod (7) is connected with the first guide shaft (4) in a sliding mode through the first sliding hole (7-1); the second push rod (12) is connected with the second guide shaft (11) in a sliding mode through a second sliding hole (12-1); the end part (7-3) of the first push rod (7) is inserted into the groove (12-3) of the second push rod (12);

a screw hole end part I (3-1) and a shaft I (3-2) are arranged on the guide rod bracket I (3), and a screw hole end part II (10-1) and a shaft II (10-2) are arranged on the guide rod bracket II (10); the guide rod bracket I (3) is fixed on the shell (1) by a screw which penetrates through the screw hole end I (3-1); the guide rod bracket II (10) is fixed on the shell (1) by a screw which penetrates through the screw hole end part II (10-1);

a first hole (5-1) is formed in the first driven wheel (5), and a second hole (9-1) is formed in the second driven wheel (9); the driven wheel I (5) is fixed on the guide rod support I (3) through a metal shaft (14) and a hole I (5-1) and a shaft I (3-2) respectively; the second driven wheel (9) is fixed on the second guide rod bracket (10) through a second hole (9-1) and a second shaft (10-2) respectively through a metal shaft (14).

2. The sealing mechanism of the automatic bagging machine according to claim 1, wherein: the garbage bag sealing and fusing device is characterized in that the driving device (6) drives the first synchronous transmission device (2) and the second synchronous transmission device (8) to rotate, the first synchronous transmission device (2) and the second synchronous transmission device (8) drive the first push rod (7) and the second push rod (12) to move, the first push rod (7) continues to be pushed to push a garbage bag to the electric heating device (13) when the second push rod (12) reaches a preset position, the electric heating device (13) is started to seal and fuse the garbage bag, and the driving device (6) drives the first synchronous transmission device (2) and the second synchronous transmission device (8) to be started reversely at the same time to drive the first push rod (7) and the second push rod (12) to return to the original position.

3. The sealing mechanism of the automatic bagging machine according to claim 1, wherein: the first push rod (7) and the second push rod (12) move in a reciprocating mode through the driving device (6) driving the first synchronous transmission device (2) and the second synchronous transmission device (8) which are installed at one end.

4. The sealing mechanism of the automatic bagging machine according to claim 1, wherein: the shell (1) is of a rectangular structure.

5. The sealing mechanism of the automatic bagging machine according to claim 1, wherein: the shell (1) is provided with a plurality of reinforcing ribs (15).

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