CN112934730B - Formed product quantitative racking machine for handbag processing and use method thereof - Google Patents

Abstract

The invention relates to the field of handbag finished product packaging equipment, in particular to a formed product quantitative racking machine for handbag processing and a using method thereof. According to the formed product quantitative racking machine for handbag processing and the using method thereof, the formed handbags on the feeding mechanism are grabbed by the grabbing and placing mechanism, the grabbed formed handbags are placed in the packaging boxes on the feeding mechanism, the grabbing and placing mechanism drives the time delay switch mechanism to be powered on after grabbing and placing the set number of formed handbags, and the feeding mechanism is enabled to convey the next vacant packaging box, so that automatic counting, charging and feeding are realized, the automation degree is improved, and the working efficiency is improved.

Description

Formed product quantitative racking machine for handbag processing and use method thereof

Technical Field

The invention relates to the field of handbag finished product packaging equipment, in particular to a formed product quantitative racking machine for handbag processing and a using method thereof.

Background

The handbag is required to be subpackaged according to a certain quantity after being formed, and then the handbags with fixed quantity are packaged and bundled, so that the transportation and the transportation of the handbags are facilitated, and the management of warehousing and ex-warehouse are also facilitated. The handbag is counted through the workman when present counting partial shipment to the handbag dress after will counting is in a packaging box, because workman's count can produce the human error consequently can appear counting error, and packing box intensity of labour great with the handbag packing into of many times moreover, leads to the human cost higher, and production efficiency is low.

Disclosure of Invention

The invention aims to provide a formed product quantitative racking machine for handbag processing and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a shaping product ration racking machine for handbag processing, includes the base, be provided with on the base and be used for carrying the feeding mechanism that shaping handbag and the encapsulation box that is used for encapsulating the shaping handbag carried respectively, still be provided with on the base and put into the encapsulation box and count snatch placing mechanism with the handbag, snatch placing mechanism and be connected with the feeding mechanism transmission to drive feeding mechanism and carry shaping handbag, snatch placing mechanism and be provided with time delay switch mechanism, time delay switch mechanism with snatch placing mechanism transmission and be connected, and time delay switch mechanism is used for starting feeding mechanism and carries the encapsulation box.

Preferably, the feeding mechanism comprises a first belt conveyor and a second belt conveyor which are fixed on the base and arranged in parallel, the first belt conveyor is used for conveying the formed handbags, the first belt conveyor is used for conveying the packaging boxes, the grabbing and placing mechanism is used for moving the formed handbags on the second belt conveyor into the packaging boxes corresponding to the first belt conveyor, a second motor is fixed on the base, and the second motor is in transmission connection with the first belt conveyor.

Preferably, the grabbing and placing mechanism comprises a second support fixed on the base, a third rotating shaft is rotatably connected to a fixed shaft on the second support, a second rotating shaft is rotatably connected to the second support and is perpendicular to the base and the third rotating shaft, a first incomplete gear is fixed to the lower end of the second rotating shaft, a first support is fixed to the base, a first rotating shaft is rotatably connected to the first support, one end of the first rotating shaft is in transmission connection with the second belt conveyor, a transmission gear is fixed to one end, far away from the second belt conveyor, of the first rotating shaft, and the first incomplete gear can be in meshing connection with the transmission gear.

Preferably, be fixed with motor one on the base, motor one is connected through sprocket assembly and the transmission of pivot three, is fixed with incomplete gear two on the pivot three, and the position of keeping away from the centre of a circle on the incomplete gear two is fixed with the nose bar, and the nose bar is pegged graft in the balladeur train, and the nose bar can slide in the vertical inslot that moves towards in the balladeur train, perpendicular and fixedly connected with pull rod on the balladeur train, and the pull rod level sets up.

Preferably, snatch placement machine structure still is including fixing the grudging post on the base, the grudging post upper end is fixed with the backplate, set up the spout of the L shape of invering on the backplate, sliding connection has the slider of square in the spout, fixedly connected with pin rod on the slider, be fixed with the jib of vertical downward setting on the pin rod, the lower extreme of jib is fixed with and is used for adsorbing fixed sucking disc to the shaping handbag on the belt conveyor two, and when the slider slides to the lower extreme of the vertical section of spout, the sucking disc just compresses tightly the laminating with the shaping handbag on the belt conveyor two, when the slider slides to the one end that the vertical section was kept away from to the spout horizontal segment, the sucking disc removes shaping handbag to the belt conveyor one directly over the packaging box, the last fixed surface of backplate has the vacuum pump, the vacuum pump is linked together through trachea and sucking disc.

Preferably, the upper and lower side of backplate all is fixed with the direction slide rail, two sliding connection has the slide between the direction slide rail, slide and two the junction cross section of direction slide rail is the dovetail, the slide keeps away from the one end fixed connection of balladeur train with the pull rod, the direction slide rail parallels with the pull rod, the bar is led to the groove on the slide, the bar leads to the groove and is 45 inclinations with the direction slide rail, the bar leads to the one end slope that the groove is close to the balladeur train and upwards sets up, the pin rod passes the bar and leads to the groove, and the pin rod can slide in the bar leads to the groove, the both ends of the direction slide rail on the backplate downside edge are fixed with touch switch one and touch switch two respectively, and touch switch one is close to one side of incomplete gear two, the slide can support the knot contact with touch switch one and touch switch two respectively.

Preferably, the time delay switch mechanism comprises a first cylinder fixed on the back plate, the central axis of the first cylinder is parallel to the horizontal section of the sliding groove, the first cylinder is connected with a first piston plate in a sliding mode, the outer side wall of one end, far away from the second incomplete gear, of the first cylinder is vertically and fixedly connected with a second cylinder, the bottom of the second cylinder is communicated with a through hole formed in the first cylinder, a key switch is fixed on the inner top wall of the second cylinder, the key switch and a second motor are connected into a circuit in a series connection mode, the second cylinder is connected with a second piston plate in a sliding mode, the upper surface of the second piston plate is fixedly connected with the lower end of the spring, the upper end of the spring can be in abutting and buckling contact with the key switch, a limiting ring is fixed on the inner side wall of the second cylinder, when the lower surface of the second piston plate is in abutting and buckling contact with the limiting ring, the spring has no force on the key switch, the lower end of the inner side of the second cylinder is rotatably connected with a baffle in a fixed shaft, and the baffle can plug the through hole in a three-quarter area.

Preferably, the fixed shaft at the upper end of the second support is rotatably connected with a counting gear, a third incomplete gear is coaxially fixed on the counting gear, a guide frame is fixed on the back plate, a rack is slidably connected on the guide frame and is positioned on the lower side of the third incomplete gear, the third incomplete gear can be meshed with the rack and is connected with the rack, and one end, far away from the third incomplete gear, of the rack penetrates through the end wall of the first cylinder barrel, points to the second support and is perpendicular to and fixedly connected with the first piston plate.

Preferably, the vacuum pump further comprises a controller, a signal input end of the controller is electrically connected with the first touch switch and the second touch switch respectively, and a signal output end of the controller is electrically connected with the first motor, the second motor and the vacuum pump respectively.

In addition, the application also provides a using method of the formed product quantitative racking machine for handbag processing, which comprises the following steps:

the method comprises the following steps: grabbing the formed hand bag on the feeding mechanism by a grabbing and placing mechanism;

step two: the grabbed formed hand bags are placed into a packaging box on the feeding mechanism through the grabbing and placing mechanism, and the feeding mechanism is driven to convey and move down the formed hand bags;

step two: and after the grabbing and placing mechanism grabs and places a set number of formed handbags, the time delay switch mechanism is driven to be electrified, and the feeding mechanism is enabled to convey the next empty packaging box.

Compared with the prior art, the invention has the beneficial effects that:

according to the automatic grabbing device, the formed hand bags on the feeding mechanism are grabbed through the grabbing and placing mechanism, the grabbed formed hand bags are placed in the packaging box on the feeding mechanism, the feeding mechanism is driven to convey and move the formed hand bags downwards, automatic grabbing of the formed hand bags is achieved, the formed hand bags are automatically placed in the packaging box, and the formed hand bags are automatically conveyed, so that manpower is not needed, time and labor are saved, and the working efficiency is improved; the grabbing and placing mechanism drives the time delay switch mechanism to be powered on after grabbing and placing the set number of formed hand bags, and enables the feeding mechanism to convey the next empty packaging box, so that automatic counting, loading and feeding are achieved, the automation degree is improved, mistakes are avoided, and the working efficiency is improved.

Drawings

FIG. 1 is a first schematic view of an assembly structure according to the present invention;

FIG. 2 is a second schematic view of the final assembly structure of the present invention;

FIG. 3 is a schematic view of a back plate structure according to the present invention;

FIG. 4 isbase:Sub>A schematic view of the cross-sectional structure A-A of FIG. 3;

FIG. 5 is a bottom view of the partial gear structure of the present invention;

FIG. 6 is a schematic view of a connection structure of a second incomplete gear, a counting gear, a third incomplete gear and a rack in the present invention;

FIG. 7 is a first schematic structural diagram of the delay switch mechanism according to the present invention;

fig. 8 is a second schematic structural diagram of the delay switch mechanism in the present invention.

In the figure: 1. a base; 2. a first belt conveyor; 3. a second belt conveyor; 4. a first bracket; 5. a first rotating shaft; 6. a transmission gear; 7. a first incomplete gear; 8. a carriage; 9. a first touch switch; 10. a first motor; 11. a second bracket; 12. a second rotating shaft; 13. a third rotating shaft; 14. a second incomplete gear; 15. a counting gear; 16. an incomplete gear III; 17. a nose bar; 18. a guide frame; 19. a rack; 20. a cylinder barrel I; 21. a first piston plate; 22. a chute; 23. a cylinder barrel II; 24. a pin rod; 25. a vacuum pump; 26. a strip-shaped through groove; 27. a pull rod; 28. a back plate; 29. a slide plate; 30. a second touch switch; 31. a boom; 32. a suction cup; 33. erecting a frame; 34. a second motor; 35. a through hole; 36. a baffle plate; 37. a limiting ring; 38. a second piston plate; 39. a spring; 40. a key switch; 41. a slider; 42. a guide slide rail.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a worker skilled in the art based on the embodiments of the present invention without making creative efforts, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a technical solution:

the utility model provides a shaping product ration racking machine for handbag processing, including base 1, be provided with on the base 1 and be used for carrying the feeding mechanism that shaping handbag and the encapsulation box that is used for encapsulating the shaping handbag carry respectively, still be provided with on the base 1 and put into the encapsulation box and count pick placement machine with the handbag, it is connected with the feeding mechanism transmission to pick placement machine, and drive feeding mechanism carries the shaping handbag, it is provided with time delay switch mechanism on the placement machine to pick, time delay switch mechanism with pick placement machine and be connected, and time delay switch mechanism is used for starting feeding mechanism and carries the encapsulation box.

In this embodiment, as shown in fig. 1 and 2, the feeding mechanism includes a first belt conveyor 2 and a second belt conveyor 3 that are fixed on the base 1 and arranged in parallel, the second belt conveyor 3 is used to convey the formed handbag, the first belt conveyor 2 is used to convey the packaging box, the grabbing and placing mechanism is used to move the formed handbag on the second belt conveyor 3 into the corresponding packaging box on the first belt conveyor 2, a second motor 34 is fixed on the base 1, and the second motor 34 is in transmission connection with the first belt conveyor 2.

In this embodiment, as shown in fig. 1, fig. 2, and fig. 5, the grabbing and placing mechanism includes a second support 11 fixed on the base 1, a third rotating shaft 13 is rotatably connected to the second support 11 through a fixed shaft, a second rotating shaft 12 is rotatably connected to the second support 11 through a fixed shaft, the second rotating shaft 12 is perpendicular to the base 1 and the third rotating shaft 13, a first incomplete gear 7 is fixed at a lower end of the second rotating shaft 12, a first support 4 is fixed on the base 1, a first rotating shaft 5 is rotatably connected to the first support 4 through a fixed shaft, one end of the first rotating shaft 5 is in transmission connection with the second belt conveyor 3, a transmission gear 6 is fixed at one end of the first rotating shaft 5 away from the second belt conveyor 3, and the first incomplete gear 7 can be in meshing connection with the transmission gear 6.

In this embodiment, as shown in fig. 1 and fig. 2, a first motor 10 is fixed on a base 1, the first motor 10 is in transmission connection with a third rotating shaft 13 through a chain wheel assembly, a second incomplete gear 14 is fixed on the third rotating shaft 13, a protruding rod 17 is fixed on the second incomplete gear 14 at a position far away from the center of a circle, the protruding rod 17 is inserted into a sliding frame 8, the protruding rod 17 can slide in a vertical groove in the sliding frame 8, a pull rod 27 is vertically and fixedly connected to the sliding frame 8, and the pull rod 27 is horizontally arranged.

In this embodiment, as shown in fig. 1 and fig. 2, the grasping and placing mechanism further includes a vertical frame 33 fixed on the base 1, a back plate 28 is fixed at the upper end of the vertical frame 33, an inverted L-shaped chute 22 is formed in the back plate 28, a square slider 41 is slidably connected in the chute 22, a pin 24 is fixedly connected to the slider 41, a vertically downward hanging rod 31 is fixed to the pin 24, a suction cup 32 for sucking and fixing a formed handbag on the second belt conveyor 3 is fixed to the lower end of the hanging rod 31, when the slider 41 slides to the lower end of the vertical section of the chute 22, the suction cup 32 is just tightly pressed and attached to the formed handbag on the second belt conveyor 3, when the slider slides to one end of the horizontal section of the chute 22 away from the vertical section, the suction cup 32 moves the formed handbag to the position right above the packaging box on the first belt conveyor 2, a vacuum pump 25 is fixed on the upper surface of the back plate 28, and the vacuum pump 25 is communicated with the suction cup 32 through an air pipe.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, and fig. 4, guide slide rails 42 are fixed on both upper and lower side edges of the back plate 28, two slide rails 42 are slidably connected to each other, a cross section of a joint between the slide rail 29 and the two guide slide rails 42 is dovetail-shaped, the slide rail 29 and one end of the pull rod 27 far away from the carriage 8 are fixedly connected, the guide slide rails 42 are parallel to the pull rod 27, a bar-shaped through groove 26 is formed in the slide rail 29, the bar-shaped through groove 26 and the guide slide rails 42 form an inclination angle of 45 degrees, one end of the bar-shaped through groove 26 close to the carriage 8 is arranged obliquely upward, the pin rod 24 passes through the bar-shaped through groove 26, the pin rod 24 can slide in the bar-shaped through groove 26, the first touch switch 9 and the second touch switch 30 are respectively fixed at both ends of the guide slide rails 42 on the lower side edge of the back plate 28, and the first touch switch 9 is close to one side of the incomplete gear 14, and the slide rail 29 can respectively make buckling contact with the first touch switch 9 and the second touch switch 30.

In this embodiment, as shown in fig. 1, fig. 2, fig. 7, and fig. 8, the delay switch mechanism includes a first cylinder 20 fixed on the back plate 28, a central axis of the first cylinder 20 is parallel to a horizontal section of the chute 22, a first piston plate 21 is slidably connected to the first cylinder 20, a second cylinder 23 is vertically and fixedly connected to an outer side wall of one end of the first cylinder 20, which is away from the second incomplete gear 14, a bottom of the second cylinder 23 is communicated with a through hole 35 formed in the first cylinder 20, a push switch 40 is fixed to an inner top wall of the second cylinder 23, the push switch 40 and the second motor 34 are connected to a circuit in a series connection manner, a second piston plate 38 is slidably connected to an inner portion of the second cylinder 23, an upper surface of the second piston plate 38 is fixedly connected to a lower end of a spring 39, an upper end of the spring 39 can be in abutting contact with the push switch 40, a limit ring 37 is fixed to an inner side wall of the second cylinder 23, a lower surface of the second piston plate 38 is in abutting contact with the limit ring 37, the spring 39 and the push switch 40 has no force, a fixed shaft at a lower end of the second cylinder 23 is connected to a baffle 36, and the baffle 36 can block the through hole 35.

In this embodiment, as shown in fig. 1, fig. 2, and fig. 6, the upper end of the second support 11 is connected to the counting gear 15 in a fixed-axis manner, the third incomplete gear 16 is coaxially fixed on the counting gear 15, the guide frame 18 is fixed on the back plate 28, the rack 19 is connected to the guide frame 18 in a sliding manner, the rack 19 is located on the lower side of the third incomplete gear 16, the third incomplete gear 16 can be meshed with the rack 19, and one end of the rack 19, which is far away from the third incomplete gear 16, penetrates through the first cylinder barrel 20 and points to the end wall of the second support 11, and is perpendicular to and fixedly connected with the first piston plate 21.

In this embodiment, the vacuum pump further comprises a controller, a signal input end of the controller is electrically connected with the first touch switch 9 and the second touch switch 30, and a signal output end of the controller is electrically connected with the first motor 10, the second motor 34 and the vacuum pump 25.

The use method and the advantages of the invention are as follows: this kind of a shaping product ration racking machine for handbag processing is when carrying out the partial shipment to shaping handbag, and the course of operation is as follows:

the method comprises the following steps: as shown in fig. 1 and fig. 2, the controller controls the first motor 10 to operate, the first motor 10 drives the third rotating shaft 13 to rotate clockwise in fig. 1 and fig. 2 through the chain wheel assembly, so that the third rotating shaft 13 synchronously drives the second incomplete gear 14 and the convex rod 17 to synchronously rotate clockwise, so that the nose bar 17 synchronously drives the slide plate 29 to move in a left-right reciprocating manner on the guide slide rail 42 on the back plate 28 through the carriage 8 and the pull rod 27, during the leftward movement of the sliding plate 29, the sliding block 41 is driven by the side wall of the strip-shaped through groove 26 and the pin rod 24 to slide on the horizontal section of the sliding chute 22 from right to left, when the sliding block 41 is at the upper end position of the sliding slot 22, the component force in the vertical direction of the thrust exerted by the side wall of the strip-shaped through slot 26 on the pin rod 24 drives the sliding block 41 to move downwards at the vertical section of the sliding slot 22, when the sliding block 41 is positioned at the lower end of the vertical section of the chute 22, the pin rod 24 drives the suction cup 32 to be pressed and attached to the molding handbag at the corresponding position on the belt conveyor II 3 through the hanging rod 31, and the sliding plate 29 is in abutting contact with the first touch switch 9 at this time, the first touch switch 9 transmits a touch signal of the sliding plate 29 to the controller, the controller controls the vacuum pump 25 to work, thereby leading the suction disc 32 to carry out adsorption type fixed grabbing on the formed hand bag, realizing the automatic grabbing on the formed hand bag, and during the leftward movement of the sliding plate 29, the first incomplete gear 7 is not meshed with the transmission gear 6, so that the third rotating shaft 13 can not drive the second belt conveyor 3 to run through the second rotating shaft 12, the first incomplete gear 7, the transmission gear 6 and the first rotating shaft 5, therefore, when the suction disc 32 grabs the formed handbag, the belt conveyor II 3 is prevented from operating to cause that the suction disc 32 cannot stably grab the formed handbag, and the normal operation of the whole device is ensured;

step two: as mentioned in the first step, when the slide plate 29 moves rightwards on the back plate 28, the component force of the push force of the slide plate 29 on the pin rod 24 in the vertical direction applied by the side wall of the strip-shaped through groove 26 causes the pin rod 24 to drive the slide block 41 to slide upwards from the bottom in the vertical section of the chute 22, so that the pin rod 24 drives the formed handbag to move upwards through the hanging rod 31 and the suction cup 32, thereby increasing the height of the formed handbag, so as to be smoothly put into the packing box from the upper port of the packing box, when the slide block 41 is at the left end of the horizontal section of the chute 22, the slide plate 29 drives the pin rod 24 and the slide block 41 to move rightwards along the horizontal section of the chute 22 through the side wall of the strip-shaped through groove 26, so that the pin rod 24 drives the formed handbag to move rightwards through the hanging rod 31 and the suction cup 32, when the slide block 41 is at the right end of the horizontal section of the chute 22, the suction cup 32 drives the formed handbag to be right above the upper port of the packing box, and at this moment, the slide plate 29 is in abutting and buckling contact with the other touch switches 30, the touch switches 30 transmit a touch signal of the slide plate 29 to the controller, the controller controls the vacuum pump 25 to stop working, so that the suction disc 32 does not generate adsorption force on the formed hand bag, the formed hand bag falls into a corresponding packaging box on the belt conveyor I2 below, the formed hand bag is automatically placed into the packaging box, the labor participation is not needed, the time and the labor are saved, the working efficiency is improved, in the process that the slide plate 29 moves rightwards, the incomplete gear I7 is meshed and connected with the transmission gear 6, so that the rotating shaft III 13 can drive the belt conveyor II 3 to operate through the rotating shaft II 12, the incomplete gear I7, the transmission gear 6 and the rotating shaft I5, and the belt conveyor II 3 further transmits the next formed hand bag to a grabbing position of the suction disc 32, so that the next formed handbag is grabbed and put into the packaging box, automatic feeding is realized, and the automatic degree and the working efficiency are improved by reciprocating in the way;

step three: as shown in steps one and two, the clockwise rotation of the incomplete gear 14 can drive the teeth thereon to engage with the counting gear 15, as shown in fig. 1, 2 and 6, when the teeth on the incomplete gear 14 engage with the counting gear 15, the counting gear 15 is driven to rotate counterclockwise by a certain angle, the incomplete gear 14 is set to rotate clockwise by ten circles to drive the counting gear 15 to rotate counterclockwise by one circle, i.e., the pick-and-place mechanism picks up ten formed handbags and places the handbags into the packaging box, the counting gear 15 rotates counterclockwise by one circle, so that the counting gear 15 synchronously drives the incomplete gear 16 to rotate counterclockwise by one circle, during the counterclockwise rotation of the incomplete gear 16, the incomplete gear 16 can drive the teeth thereon to engage with the rack 19 and push the piston plate one 21 to move rightward in the cylinder one 20, when attention is required, when the incomplete gear two 14 rotates for the tenth circle, the driving suction cup 32 puts the formed handbags right above the packaging box and releases the formed handbags, the formed handbags to move the piston plate one to move upward and drive the piston plate 20 to move the piston plate 20 through the cylinder one piston plate 35, so that the piston plate 35 is pushed by the piston plate 35 to move upward and the piston plate 35 to drive the piston plate 35 to move the piston plate 35, thereby to push the piston plate 35 to move the piston plate to move the bag to block the liquid flow of the bag, so that the piston plate 35 and the piston plate 35 simultaneously, and the next vacant packaging box is moved to the discharging position of the sucker 32, when the incomplete gear II 14 drives the sucker 32 to move to the middle point of the unidirectional stroke of the sucker 32, the incomplete gear II 14 is not meshed with the counting gear 15 at the moment, the rest racks 19 of the incomplete gear III 16 are not meshed, so that the racks 19 do not apply right thrust to the piston plate I21, the piston plate II 38 is further moved downwards under the action of the restoring force of the spring 39, the piston plate II 38 enables the liquid in the cylinder barrel II 23 to flow into the cylinder barrel I20 through the through hole 35, and the liquid pushes the piston plate I21 and the racks 19 to move left and reset, and the baffle 36 has a blocking effect on the through hole 35 due to the downward liquid flow, thereby the liquid flow rate is restricted, and then increase the time length of resetting of second piston plate 38 and spring 39, thereby play the time delay effect, so that increase the operating time length of second motor 34, ensure that second motor 34 can carry the next vacant encapsulation box to the blowing position of sucking disc 32, before incomplete second gear 14 drive sucking disc 32 snatchs the shaping handbag and removes to vacant encapsulation box upside port, second piston plate 38 resets, spring 39 is again to the effect of button switch 40 zero power this moment, thereby make second motor 34 stop work, so circulate, thereby realize automatic counting, feed and pay-off, and improve the degree of automation, and can not make mistakes, and improve work efficiency.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. The utility model provides a shaping product ration racking machine for handbag processing, includes base (1), its characterized in that: the automatic packaging machine is characterized in that a feeding mechanism used for respectively conveying a formed handbag and a packaging box used for packaging the formed handbag is arranged on the base (1), a grabbing and placing mechanism used for placing the handbag into the packaging box is further arranged on the base (1), the grabbing and placing mechanism is in transmission connection with the feeding mechanism and drives the feeding mechanism to convey the formed handbag, a delay switch mechanism is arranged on the grabbing and placing mechanism, the delay switch mechanism is in transmission connection with the grabbing and placing mechanism, and the delay switch mechanism is used for starting the feeding mechanism to convey the packaging box;

the feeding mechanism comprises a first belt conveyor (2) and a second belt conveyor (3) which are fixed on the base (1) and arranged in parallel, the second belt conveyor (3) is used for conveying formed handbags, the first belt conveyor (2) is used for conveying the packaging boxes, the grabbing and placing mechanism is used for moving the formed handbags on the second belt conveyor (3) into the corresponding packaging boxes on the first belt conveyor (2), a second motor (34) is fixed on the base (1), and the second motor (34) is in transmission connection with the first belt conveyor (2); the grabbing and placing mechanism comprises a second support (11) fixed on the base (1), a third rotating shaft (13) is connected to the second support (11) in a fixed-shaft rotating mode, a second rotating shaft (12) is connected to the second support (11) in a fixed-shaft rotating mode, and the second rotating shaft (12) is perpendicular to the base (1) and the third rotating shaft (13); a first incomplete gear (7) is fixed at the lower end of the second rotating shaft (12), a first support (4) is fixed on the base (1), the first support (4) is fixedly connected with a first rotating shaft (5) in a rotating mode, and one end of the first rotating shaft (5) is in transmission connection with a second belt conveyor (3); a transmission gear (6) is fixed at one end, far away from the second belt conveyor (3), of the first rotating shaft (5), and the incomplete gear I (7) can be meshed and connected with the transmission gear (6); a first motor (10) is fixed on the base (1), the first motor (10) is in transmission connection with a third rotating shaft (13) through a chain wheel assembly, a second incomplete gear (14) is fixed on the third rotating shaft (13), a convex rod (17) is fixed at a position, far away from the circle center, on the second incomplete gear (14), the convex rod (17) is inserted in the sliding frame (8), the convex rod (17) can slide in a vertical groove in the sliding frame (8), a pull rod (27) is vertically and fixedly connected to the sliding frame (8), and the pull rod (27) is horizontally arranged; the grabbing and placing mechanism further comprises a vertical frame (33) fixed on the base (1), a back plate (28) is fixed at the upper end of the vertical frame (33), an inverted L-shaped sliding groove (22) is formed in the back plate (28), a square sliding block (41) is connected in the sliding groove (22), a pin rod (24) is fixedly connected to the sliding block (41), a vertically downward-arranged hanging rod (31) is fixed to the pin rod (24), a sucking disc (32) used for sucking and fixing a formed handbag on the second belt conveyor (3) is fixed to the lower end of the vertical section of the sliding groove (22), when the sliding block (41) slides to the lower end of the vertical section of the sliding groove (22), the sucking disc (32) is just tightly pressed and attached to a formed handbag on the second belt conveyor (3), when the sliding block slides to one end, far away from the vertical section, of the horizontal section of the sliding groove (22), the sucking disc (32) moves the formed handbag to the first belt conveyor (2), a packing box is directly above the upper surface of the back plate (28), and the vacuum pump (25) is communicated with the sucking disc (32) through an air pipe; the upper side and the lower side of the back plate (28) are both fixed with guide slide rails (42), a slide plate (29) is connected between the two guide slide rails (42) in a sliding manner, the cross section of the joint of the slide plate (29) and the two guide slide rails (42) is in a dovetail shape, the slide plate (29) is fixedly connected with one end of the pull rod (27) far away from the sliding frame (8), the guide slide rails (42) are parallel to the pull rod (27), the slide plate (29) is provided with a strip-shaped through groove (26), and the strip-shaped through groove (26) and the guide slide rails (42) form an inclination angle of 45 degrees;

the time delay switch mechanism comprises a cylinder barrel I (20) fixed on a back plate (28), the central axis of the cylinder barrel I (20) is parallel to the horizontal section of the chute (22), a first piston plate (21) is connected in the first cylinder barrel (20) in a sliding manner, a second cylinder barrel (23) is vertically and fixedly connected on the outer side wall of one end of the first cylinder barrel (20) far away from the second incomplete gear (14), the bottom of the cylinder barrel II (23) is communicated with a through hole (35) arranged on the cylinder barrel I (20), a key switch (40) is fixed on the inner top wall of the cylinder barrel II (23), the key switch (40) and the second motor (34) are connected in series to be connected into a circuit, a second piston plate (38) is connected inside the second cylinder barrel (23) in a sliding manner, the upper surface of the second piston plate (38) is fixedly connected with the lower end of the spring (39), the upper end of the spring (39) can be contacted with the key switch (40) in a buckling way, a limiting ring (37) is fixed on the inner side wall of the cylinder barrel II (23), when the lower surface of the second piston plate (38) is in abutting contact with the limit ring (37), the spring (39) and the key switch (40) have no force action, the inner side of the cylinder barrel II (23) is rotatably connected with a baffle plate (36) by avoiding the fixed shaft at the lower end, the baffle (36) can plug the through hole (35) in three quarters; the upper end of the second support (11) is connected with a counting gear (15) in a fixed-axis rotating mode, a third incomplete gear (16) is coaxially fixed on the counting gear (15), a guide frame (18) is fixed on the back plate (28), a rack (19) is connected onto the guide frame (18) in a sliding mode, the rack (19) is located on the lower side of the third incomplete gear (16), the third incomplete gear (16) can be meshed with the rack (19), and one end, far away from the third incomplete gear (16), of the rack (19) penetrates through the end wall of the first cylinder barrel (20) and points to the second support (11) and is perpendicular to and fixedly connected with the first piston plate (21); the vacuum pump further comprises a controller, wherein a signal input end of the controller is electrically connected with the first touch switch (9) and the second touch switch (30) respectively, and a signal output end of the controller is electrically connected with the first motor (10), the second motor (34) and the vacuum pump (25) respectively.

2. The forming product quantitative racking machine for handbag processing as claimed in claim 1, characterized in that: the one end slope that the groove (26) is led to in the bar is close to balladeur train (8) upwards sets up, the groove (26) is led to in the bar is passed in pin pole (24), and pin pole (24) can slide in the groove (26) are led to in the bar, the both ends of direction slide rail (42) on backplate (28) downside edge are fixed with touch switch (9) and touch switch two (30) respectively, and touch switch (9) are close to one side of incomplete gear two (14), slide (29) can support the knot contact with touch switch (9) and touch switch two (30) respectively.

3. The use method of the formed product quantitative racking machine for handbag processing as claimed in claim 1 or 2, characterized in that: the method comprises the following steps:

the method comprises the following steps: grabbing the formed handbag on the feeding mechanism by a grabbing and placing mechanism;

step two: the grabbed formed hand bags are placed in a packaging box on the feeding mechanism through the grabbing and placing mechanism, and the feeding mechanism is driven to convey and move down the formed hand bags;

step two: and after the grabbing and placing mechanism grabs and places a set number of formed handbags, the time delay switch mechanism is driven to be electrified, and the feeding mechanism is enabled to convey the next empty packaging box.

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