CN210824267U - Output platform for multiple feed packaging production lines - Google Patents

Abstract

The utility model discloses an output platform for many fodder packaging production lines belongs to premix production facility technical field. Comprises an output conveyer belt and an input conveyer belt; the input conveyer belt comprises a front end input conveyer belt and at least one middle input conveyer belt; a front end dumping structure is arranged at the joint of the front end input conveying belt and the output conveying belt, a pushing and lying structure is arranged on the middle input conveying belt to adjust the vertical packaging bags to lie horizontally in the left-right direction, and a second steering roller is arranged at the rear side of the joint of each middle input conveying belt and the output conveying belt; the front end dumping structure comprises a rotating plate bracket, a pushing dumping plate, a rotating plate cylinder and a stop lever, and the front end dumping structure adjusts the vertical packaging bag input to the conveying belt at the front end to be horizontally laid back and forth; the second steering roller is arranged above the middle input conveying belt and the middle output conveying belt along the vertical direction, and adjusts the packing bags which are horizontally laid from left to right to be horizontally laid from front to back. The packaging bags output by a plurality of feed packaging production lines are laid in the same direction, and the structure is simple.

Description

Output platform for multiple feed packaging production lines

Technical Field

The utility model belongs to the technical field of premix production facility, in particular to an output platform for many fodder packaging production lines.

Background

In modern enterprises, how to save manpower on the packaging posts of a stacking production line is a problem that the enterprises are always very headache, the traditional bag pouring mode is that the bags are poured manually, the requirement on the physical strength of operators is higher, other packaging machine manufacturers in China generally use manual operation to realize the work at this stage, one packaging machine generally needs two people to operate, one person is responsible for sleeving the bags and receiving the bags, the other person is responsible for manually turning the sewed packaging bags to lie down, then the packaging bags are flattened manually, the repeated work of about 200 times and 300 times is completed within one hour, the middle of the packaging machine cannot be separated, the labor intensity of the operators is high, and the labor cost is increased for the enterprises. In the prior art, the packing bags are generally pushed down and transported by a pushing down and lying device, which includes an input conveyor belt connected to a packing output conveyor belt and a pushing down and lying structure thereon for adjusting the packing bags standing on the input conveyor belt to lie down (along the conveying direction of the input conveyor belt).

The patent with application number CN201410589103.6 provides an on-line automatic pushing-lying and turning device for packaging bags, which adopts a stroke baffle fixed on a cylinder fixing frame through a bolt, an actuating cylinder fixed on a fixing plate, and a guide rod connector connected with a bag pushing top plate; the bag-reversing lying plate is fixed on the side surface of the belt conveyor, and the bottom of the bag-reversing lying plate supports the double-thread adjusting screw rod on the lower side surface of the belt conveyor through the synchronous pin; the turning roller and the bag-inverting lying plate are arranged on the same side of the belt conveyor; photoelectric sensing switch fixes on the photoelectric switch mount, and photoelectric sensing switch detects the wrapping bag to will output the wrapping bag signal and give the PLC system.

The device is mainly used for lying and conveying of single packaging production lines.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the embodiment of the utility model provides an output platform for many fodder packaging production lines can be used to lie according to same direction with the wrapping bag of many fodder packaging production line outputs. The technical scheme is as follows:

the embodiment of the utility model provides an output platform for many fodder packaging production lines, include to the output conveyer belt 3 that sets up around along and to the input conveyer belt that sets up about following, output conveyer belt 3 and input conveyer belt parallel and level. The input conveyer belt comprises a front end input conveyer belt 2 and at least one middle input conveyer belt 4, the front end input conveyer belt 2 is arranged in front of and adjacent to the front end of the output conveyer belt 3, and the middle input conveyer belts 4 are arranged side by side in front and at the back and are positioned on the adjacent right side of the output conveyer belt 3; a front end dumping structure 5 is arranged at the joint of the front end input conveyor belt 2 and the output conveyor belt 3, a pushing and dumping and lying structure 6 is arranged on the middle input conveyor belt 4 to adjust the vertical packaging bags 15 to lie horizontally from left to right, and a second steering roller 18 is arranged at the rear side of the joint of each middle input conveyor belt 4 and the output conveyor belt 3; the front end dumping structure 5 comprises a rotating plate support 7, a pushing and dumping plate 8, a rotating plate cylinder 9 and a stop lever 11, wherein the rotating plate support 7 is positioned on the front side of the front end input conveying belt 2; the upper end of the reverse pushing rotating plate 8 is rotatably arranged on the rotating plate bracket 7 through a rotating shaft arranged in the left-right direction and is positioned right in front of the front end of the output conveyer belt 3; the stop lever 11 is arranged in the left-right direction and is positioned at the upper part or the middle part of the correspondingly vertical packaging bag 15 right above the front end of the output conveyer belt 3; the rotating plate cylinder 9 is arranged on the rotating plate bracket 7 in the front-back direction and can drive the lower part of the pushing and reversing plate 8 to rotate backwards so as to push the lower part of the packaging bag 15 on the front-end input conveying belt 2 to the position below the stop rod 11. The second turning drum 18 is vertically disposed above the intermediate input conveyor 4 and the output conveyor 3, and adjusts the packing bags 15 lying in the left-right direction to lie in the front-back direction.

The pushing lying structure 6 in the embodiment of the present invention comprises a falling lying plate 16 and a first steering drum 17 on the front side of the middle input conveyor 4, a top plate support 12 on the rear side of the middle input conveyor 4, and a bag pushing top plate 14 which is arranged in the front-back direction on the top plate support 12 and in the front-right direction at the front end of the telescopic rod of the top plate cylinder 13; the dumping lying plate 16 is obliquely arranged upwards from back to front, and the lower end of the dumping lying plate is positioned above the front side of the middle input conveyor belt 4; the bag pushing top plate 14 is positioned in the middle or the upper part of the packaging bag 15 which is correspondingly erected above the middle input conveyor belt 4, is positioned right behind the dumping lying plate 16, and can be driven by the top plate air cylinder 13 to move forwards to push the packaging bag 15 erected on the middle input conveyor belt 4 onto the dumping lying plate 16; first steering drum 17 is along vertical setting and be located middle input conveyer belt 4 top, and it is located and topples over the adjacent left side of service creeper 16 and will adjust to about to lying to the wrapping bag 15 of lying to lying.

Specifically, the utility model discloses the inclination of empting service creeper 16 in the embodiment is 25-40, the width of middle input conveyer belt 4 is greater than the length of wrapping bag 15, the distance that turns to the fore-and-aft between first steering drum 17 and the second steering drum 18 is less than the width of wrapping bag 15, the distance between the rear side of first steering drum 17 and middle input conveyer belt 4 front side is 10-20 cm.

Specifically, the rotating plate cylinder 9 in the embodiment of the present invention is located in front of the reverse rotating plate 8, the cylinder body thereof is rotatably disposed on the rotating plate support 7 up and down, and the rear end of the telescopic rod thereof is rotatably connected with the middle part or the upper part of the front side of the reverse rotating plate 8; when the rotating plate cylinder 9 contracts, the push-reverse rotating plate 8 is vertically arranged; when the front-end input conveyor belt 2 conveys one packaging bag 15 to the position right behind the push-reverse plate 8, the front-end input conveyor belt 2 stops, and then the rotating plate cylinder 9 extends to push the push-reverse plate 8 against the lower part of the front side of the packaging bag 15 to push the lower end of the packaging bag 15 against the output conveyor belt 3, and at the moment, the rear side of the packaging bag 15 is pushed against the stop lever 11.

Further, the middle part of the reverse rotating plate 8 in the embodiment of the present invention is provided with a strip-shaped light transmission hole 22 along the left-right direction, and a photoelectric sensor support 23 is arranged along the left-right direction at the front side and right in front of the strip-shaped light transmission hole 22; the photoelectric sensor support 23 is provided with a photoelectric sensor 24, and light rays emitted by the photoelectric sensor 24 pass through the strip-shaped light-transmitting hole 22 backwards and can irradiate on the vertical packaging bag 15; when the photoelectric sensor 24 is triggered, the front-end input conveyor 2 stops, and the packaging bag 15 triggering the photoelectric sensor 24 is positioned right in front of the output conveyor 3.

Preferably, the left sides of all the second turning drums 18 and the right sides of the packaging bags 15 output from the front end dumping structure 5 in the embodiment of the present invention are all located on the same front-back straight line.

Preferably, a bag-pouring top plate 25 is arranged behind the stop lever 11 and between the middle input conveyor belts 4 positioned at the foremost end in the embodiment of the invention; the bag-inverting top plate 25 is disposed in the left-right direction and is located above the packing bag 15 lying on the output conveyor 3.

Specifically, the distance between the stop lever 11 and the output conveyer belt 3 in the embodiment of the present invention is 25-50cm, and the distance between the bag-pouring top plate 25 and the output conveyer belt 3 is 10-15 cm.

Specifically, the front-end input conveyor belt 2 in the embodiment of the present invention is located on the right side of the output conveyor belt 3, and the number of the middle input conveyor belts 4 is one; the output conveyer belt 3 is composed of a front end section output conveyer belt 19 and a middle section output conveyer belt 20 which are arranged in sequence, and the front end of the middle section output conveyer belt 20 is positioned in front of the middle input conveyer belt 4.

The embodiment of the utility model provides a beneficial effect that technical scheme brought is: the embodiment of the utility model provides an output platform for many fodder packaging production lines can be used to lie flat according to same direction with the wrapping bag of many fodder packaging production line outputs, and simple structure.

Drawings

Fig. 1 is a schematic structural diagram of an output platform for a plurality of feed packaging production lines provided by an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of the front end dump structure of FIG. 1;

FIG. 3 is an enlarged view of a portion of the push down deck structure of FIG. 1;

FIG. 4 is a schematic diagram of the structure of the photo sensor on the flip board;

FIG. 5 is a schematic view of the front end dumping structure with the push down plate upright;

FIG. 6 is a schematic view of the front end dumping structure as the push down plate rotates;

fig. 7 is a schematic view of the front-end pouring structure after pouring the packaging bag.

In the figure: the packaging machine comprises a packaging output conveying belt 1, a front end input conveying belt 2, an output conveying belt 3, a middle input conveying belt 4, a front end dumping structure 5, a 6-pushing lying structure, a 7-rotating plate support, a 8-pushing reversing plate, a 9-rotating plate cylinder, a 10-blocking rod support, a 11-blocking rod, a 12-blocking plate support, a 13-blocking plate cylinder, a 14-pushing bag blocking plate, a 15-packaging bag, a 16-dumping lying plate, a 17-first steering roller, a 18-second steering roller, a 19-front-end-section output conveying belt, a 20-middle-section output conveying belt, a 21-shaped guardrail, a 22-shaped light hole, a 23-photoelectric sensor support, a 24-photoelectric sensor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-7, an embodiment of the present invention provides an output platform for multiple feed packaging production lines, including an output conveyor belt 3 arranged in a front-back direction and an input conveyor belt arranged in a left-right direction; the right end of the input conveyer belt is connected with a packaging output conveyer belt 1 (which realizes weighing, packaging and outputting after bag sealing of the feed); the rear end of the output conveyer belt 3 can be connected with a conveyer belt of a shaping device or a stacking device and the like, and the conveyer belt is conveyed backwards; the output conveyor 3 is flush (on the same horizontal plane) with and connected to the input conveyor. The input conveying belt comprises a front end input conveying belt 2 and at least one middle input conveying belt 4, the front end input conveying belt 2 is arranged in the front of the output conveying belt 3, adjacent front (left side or right side, preferably right side) of the front end input conveying belt is connected to form an L shape or a T shape, and the middle input conveying belts 4 are arranged side by side in the front and at the back (behind the front end input conveying belt 2) and adjacent right sides of the middle input conveying belts 3 are connected to form a T shape. Wherein, the joint of the front end input conveyer belt 2 and the output conveyer belt 3 is provided with a front end dumping structure 5 which adjusts the vertical packing bag 15 on the front end input conveyer belt 2 to be horizontally laid back and forth. The middle input conveyer belts 4 are provided with a push-down lying structure 6 for adjusting the vertical packing bags 15 to lie horizontally from left to right, and the rear side of the joint of each middle input conveyer belt 4 and the output conveyer belt 3 (the rear side of the middle input conveyer belt 4 and the right side of the output conveyer belt 3) is provided with a second steering roller 18. Wherein, the front end dumping structure 5 comprises a rotating plate bracket 7, a pushing and dumping plate 8, a rotating plate cylinder 9, a stop lever 11 and the like; the rotating plate support 7 is arranged in the left-right direction, is positioned at the front side of the front end input conveying belt 2, is positioned right in front of the front end of the output conveying belt 3 and is of a frame structure. The upper end of the reverse-rotating pushing plate 8 is rotatably arranged on the rotating plate bracket 7 through a rotating shaft arranged in the left-right direction, the reverse-rotating pushing plate is positioned right in front of the front end of the output conveyer belt 3, the lower end of the reverse-rotating pushing plate is positioned above the front-end input conveyer belt 2, the width of the reverse-rotating pushing plate is larger than that of the packing bag 15, and the length of the reverse-rotating pushing plate is preferably larger than that of the front-end. The stop lever 11 is arranged along the left-right direction and is positioned at the upper part or the middle part of the correspondingly erected packaging bag 15 right above the front end of the output conveyer belt 3; further, a stop lever bracket 10 (two vertically arranged rectangular columns, which are respectively located at the left and right sides of the output conveyor belt 3) is arranged at the front end of the output conveyor belt 3 along the vertical direction, and the stop lever 11 is arranged on the stop lever bracket 10 in a vertically adjustable manner (sleeves at the two ends of the stop lever are sleeved on the rectangular columns at the corresponding sides and fixed with the rectangular columns through bolts). The rotating plate cylinder 9 is arranged (rotated) on the rotating plate support 7 in the front-back direction and can drive the lower part of the pushing-reversing plate 8 to rotate backwards so as to push the lower part of the packaging bag 15 on the front-end input conveying belt 2 to the lower part of the stop lever 11 (the lower end of the packaging bag 15 is arranged on the output conveying belt 3, and the packaging bag 15 is driven by the output conveying belt 3 and blocked by the stop lever 11 to topple over). The second turning roller 18 is vertically disposed above the intermediate input conveyor 4 and the output conveyor 3, and adjusts the packing bag 15 lying in the left-right direction to lie in the front-back direction while positioning the right side of the packing bag 15.

Referring to fig. 1 and 3, the structure of the lying structure 6 of the present invention is similar to that of the patent with the application number CN201410589103.6, and includes a falling lying plate 16 and a first steering drum 17 at the front side of the middle input conveyor 4, a top plate support 12 at the rear side of the middle input conveyor 4, a bag pushing top plate 14 disposed at the front end of the telescopic rod of the top plate cylinder 13 and the top plate cylinder 13 on the top plate support 12 in the front-back direction and in the left-right direction, and the like. The tilt bed 16 is disposed diagonally upward from rear to front and has its lower end located adjacent above the front side of the intermediate input conveyor 4. The bag pushing top plate 14 is located above the middle input conveyor belt 4 and is located in the middle or at the upper part of the corresponding upright packaging bag 15, is located right behind the dumping lying plate 16, and can be driven by the top plate air cylinder 13 to move forwards to push the upright packaging bag 15 on the middle input conveyor belt 4 onto the dumping lying plate 16. The first deflection roller 17 is arranged vertically above the central infeed conveyor 4 (suspended by a support) and is located adjacent to the left side of the tilting and lying plate 16 to adjust the packaging bags 15 lying in the front-to-back direction to lie in the left-to-right direction. Guide rods are arranged on the rear side of the bag pushing top plate 14 and on the left side and the right side of the top plate air cylinder 13, the guide rods are arranged in the front-back direction, guide cylinders matched with the guide rods are arranged on the top plate support 12 in the front-back direction, and the guide cylinders are sleeved outside the guide rods on the corresponding sides. When the packaging bag 15 is conveyed to the position right in front of the bag pushing top plate 14 by the middle input conveyor belt 4 (which can be triggered by a corresponding photoelectric sensor), the top plate air cylinder 13 acts to realize the pouring of the packaging bag 15.

Specifically, the tilting angle (and horizontal plane) of the tilting lying plate 16 in the embodiment of the present invention is 25 to 40 ° to ensure that the packing bag 15 can slide onto the intermediate input conveyor 4. The width of middle input conveyer belt 4 is greater than the length of wrapping bag 15, and the width of output conveyer belt 3 is greater than the width of wrapping bag 15, and the width of front end input conveyer belt 2 is greater than the thickness of wrapping bag 15, and the both sides of each conveyer belt set up guardrail 21 as required in order to prevent that wrapping bag 15 from dropping. The distance between the first steering roller 17 and the second steering roller 18 in the front-back direction is smaller than the width of the packing bag 15 to ensure the turning of the packing bag 15, and the rear side of the first steering roller 17 needs to be located behind the front side of the packing bag 15 slid down from the topper board 16 to ensure the turning. The distance between the rear side of the first deflection roller 17 and the front side of the intermediate input conveyor belt 4 is 10-20 cm.

Specifically, referring to fig. 1-2 and 5-7, the flap cylinder 9 of the embodiment of the present invention is located in front of the push-and-reverse flap 8, the cylinder body thereof is rotatably disposed on the flap bracket 7 up and down, and the rear end of the telescopic rod thereof is rotatably connected to the middle or upper portion of the front side of the push-and-reverse flap 8. When the rotating plate cylinder 9 contracts, the inverted rotating plate 8 is vertically arranged (arranged along the left and right directions simultaneously, and is specifically a rectangular plate) due to the self weight. When the front-end input conveyor belt 2 conveys one packaging bag 15 to the position right behind the push-reverse plate 8 (triggers the photoelectric sensor 24), the front-end input conveyor belt 2 stops, and then the rotating plate cylinder 9 extends to enable the push-reverse plate 8 to abut against the lower portion of the front side of the packaging bag 15 to push the lower end of the packaging bag 15 to the output conveyor belt 3, and at the moment, the rear side of the packaging bag 15 abuts against the stop lever 11.

Further, referring to fig. 4, the middle portion of the reversing board 8 in the embodiment of the present invention is provided with a strip-shaped light hole 22 (specifically, a rectangular hole) along the left-right direction, and a photoelectric sensor support 23 along the left-right direction is located at the front side of the strip-shaped light hole 22. The photoelectric sensor 24 is arranged on the photoelectric sensor support 23 in a left-right adjustable manner, and the photoelectric sensor 24 is arranged in the front-back direction (when the reverse rotating plate 8 is vertical), so that light emitted by the photoelectric sensor 24 passes through the strip-shaped light-transmitting hole 22 backwards and can irradiate on the vertical packaging bag 15 (specifically, left-side triggering). When the photoelectric sensor 24 is triggered, the front-end input conveyor 2 stops (the corresponding motor stops), and the packaging bag 15 triggering the photoelectric sensor 24 is positioned right in front of the output conveyor 3.

Preferably, referring to fig. 1, in the embodiment of the present invention, all the left sides of the second turning drums 18 and the right sides of the packaging bags 15 output from the front end tilting structure 5 (triggered and controlled by the photoelectric sensor 24, the distance between the photoelectric sensor 24 and the second turning drums 18 may be approximately equal to the width of the packaging bags 15) are all located on the same front-back straight line to ensure that the packaging bags 15 output by the output conveyer are on the same straight line.

Preferably, referring to fig. 1 and 5-7, a bag-pouring top plate 25 is provided behind the bar 11 and between the foremost intermediate input conveyor 4 for allowing the front-end pouring structure 5 to completely lay down the bag 15 without allowing the bag 15 to completely lay down. The bag-pouring top plate 25 is arranged in the left-right direction and is located above the adjacent packing bags 15 lying on the output conveyer belt 3 (the left side and the right side of the rack of the output conveyer belt 3 can be fixed through corresponding supports), and the bag-pouring top plate 25 can be a strip-shaped plate which is horizontally arranged.

Specifically, the distance between the stop lever 11 and the output conveyer belt 3 in the embodiment of the present invention is 25-50cm, and the distance between the bag pouring top plate 25 and the output conveyer belt 3 is 10-15 cm. The foregoing parameters were designed for only 20KG or 25KG format bags 15.

Specifically, referring to fig. 1, the front-end input conveyor 2 in the embodiment of the present invention is located on the right side of the output conveyor 3, and the number of the middle input conveyor 4 is one. The output conveyor 3 is composed of a front-end output conveyor 19 and a middle-end output conveyor 20, which are arranged in series, and the front end of the middle-end output conveyor 20 is located in front of the middle input conveyor 4. The output conveyer belt 3 can be composed of a plurality of conveyer belts, each input conveyer belt is correspondingly provided with one conveyer belt to control the conveying speed (such as manual control stop) of the packing bags 15, and the two packing bags 15 on the output conveyer belt are prevented from colliding or being close together.

In this embodiment, "first" and "second" only have a distinguishing function, and have no other special meaning.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (9)

1. An output platform for a plurality of feed packaging production lines is characterized by comprising an output conveying belt (3) arranged in the front-back direction and an input conveying belt arranged in the left-right direction, wherein the output conveying belt (3) is flush with the input conveying belt;

the input conveying belt comprises a front end input conveying belt (2) and at least one middle input conveying belt (4), the front end input conveying belt (2) is arranged in front of and adjacent to the front end of the output conveying belt (3), and the middle input conveying belts (4) are arranged side by side in front and at the back and are positioned on the right side of and adjacent to the output conveying belt (3);

a front end dumping structure (5) is arranged at the joint of the front end input conveyor belt (2) and the output conveyor belt (3), a pushing and dumping and lying structure (6) is arranged on the middle input conveyor belt (4) to adjust the vertical packaging bags (15) to be horizontally laid from left to right, and a second steering roller (18) is arranged at the rear side of the joint of each middle input conveyor belt (4) and the output conveyor belt (3);

the front-end dumping structure (5) comprises a rotating plate support (7), a pushing and dumping plate (8), a rotating plate cylinder (9) and a stop lever (11), and the rotating plate support (7) is positioned on the front side of the front-end input conveying belt (2); the upper end of the push-reverse rotating plate (8) is rotatably arranged on the rotating plate bracket (7) through a rotating shaft arranged in the left-right direction and is positioned right in front of the front end of the output conveying belt (3); the stop lever (11) is arranged in the left-right direction and is positioned above the front end of the output conveyer belt (3) and corresponds to the upper part or the middle part of the vertical packaging bag (15); the rotating plate cylinder (9) is arranged on the rotating plate bracket (7) along the front-back direction and can drive the lower part of the pushing and reversing plate (8) to rotate backwards so as to push the lower part of a packaging bag (15) with the front end input onto the conveying belt (2) to the position below the stop lever (11);

the second steering roller (18) is arranged above the middle input conveyor belt (4) and the middle output conveyor belt (3) along the vertical direction, and adjusts the packing bags (15) which are horizontally laid from left to right to be horizontally laid from front to back.

2. The output platform for multiple feed packaging production lines according to claim 1, wherein the push-down lying structure (6) comprises a pouring lying plate (16) and a first steering roller (17) on the front side of the middle input conveyor belt (4), a top plate support (12) on the rear side of the middle input conveyor belt (4), a top plate cylinder (13) arranged on the top plate support (12) in the front-back direction, and a bag pushing top plate (14) arranged at the front end of the telescopic rod of the top plate cylinder (13) and in the left-right direction; the dumping lying plate (16) is obliquely and upwards arranged from back to front, and the lower end of the dumping lying plate is positioned above the front side of the middle input conveyor belt (4); the bag pushing top plate (14) is positioned in the middle or the upper part of the packaging bag (15) which is correspondingly erected above the middle input conveying belt (4), is positioned right behind the dumping lying plate (16), and can be driven by the top plate cylinder (13) to move forwards to dump the packaging bag (15) which is erected on the middle input conveying belt (4) onto the dumping lying plate (16); first turn to cylinder (17) along vertical setting and be located middle input conveyer belt (4) top, its adjacent left side that is located toppling lying board (16) will be from beginning to end to the wrapping bag (15) of lying and adjust to lying to controlling to lying.

3. The output platform for multiple feed packaging lines according to claim 2, wherein the inclination angle of the pouring lying plate (16) is 25-40 °, the width of the intermediate input conveyor belt (4) is greater than the length of the packaging bags (15), the distance in the front-back direction between the first steering drum (17) and the second steering drum (18) is smaller than the width of the packaging bags (15), and the distance between the rear side of the first steering drum (17) and the front side of the intermediate input conveyor belt (4) is 10-20 cm.

4. The output platform for multiple feed packaging production lines according to claim 1, wherein the rotating plate cylinder (9) is positioned in front of the push-reverse rotating plate (8), the cylinder body of the rotating plate cylinder is arranged on the rotating plate bracket (7) in a manner of rotating up and down, and the rear end of the telescopic rod of the rotating plate cylinder is rotatably connected with the middle part or the upper part of the front side of the push-reverse rotating plate (8); when the rotating plate cylinder (9) contracts, the push reversing plate (8) is vertically arranged; when front end input conveyer belt (2) delivered a wrapping bag (15) to pushing down and reversing board (8) positive rear, front end input conveyer belt (2) stopped, later, commentaries on classics board cylinder (9) extend and make pushing down and reversing board (8) top lean on wrapping bag (15) front side lower part with the lower extreme ejection of wrapping bag (15) to output conveyer belt (3), the rear side top of wrapping bag (15) this moment leans on pin (11).

5. The output platform for multiple feed packaging production lines according to claim 4, wherein the middle part of the push-reverse board (8) is provided with a strip-shaped light hole (22) along the left-right direction, and a photoelectric sensor bracket (23) is arranged on the front side of the push-reverse board and right in front of the strip-shaped light hole (22) along the left-right direction; a photoelectric sensor (24) is arranged on the photoelectric sensor support (23), and light rays emitted by the photoelectric sensor (24) penetrate out of the strip-shaped light holes (22) backwards and can irradiate on the vertical packaging bag (15); when the photoelectric sensor (24) is triggered, the front-end input conveyor belt (2) stops, and at the moment, a packaging bag (15) triggering the photoelectric sensor (24) is positioned right in front of the output conveyor belt (3).

6. The output platform for multiple feed packaging lines according to claim 5, characterized in that the left side of all the second turning drums (18) and the right side of the package (15) output at the front end pouring structure (5) are all located on the same front-to-back straight line.

7. The output platform for multiple feed packaging lines according to claim 4, characterized in that a bag-inverting top plate (25) is provided behind the bars (11) and between the foremost intermediate input conveyor belts (4); the bag-pouring top plate (25) is arranged in the left-right direction and is positioned above the adjacent lying packaging bag (15) on the output conveying belt (3).

8. The output platform for multiple feed packaging lines according to claim 7, characterized in that the distance between the bars (11) and the output conveyor belt (3) is 25-50cm and the distance between the bag pouring top plate (25) and the output conveyor belt (3) is 10-15 cm.

9. The output platform for multiple feed packaging lines according to claim 1, characterized in that the front input conveyor belt (2) is located on the right side of the output conveyor belt (3), the number of intermediate input conveyor belts (4) being one; the output conveyer belt (3) is composed of a front end section output conveyer belt (19) and a middle section output conveyer belt (20) which are sequentially arranged from front to back, and the front end of the middle section output conveyer belt (20) is positioned in front of the middle section input conveyer belt (4).

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