CN215475971U - Ink box seal film sticking machine - Google Patents

Abstract

The utility model discloses an ink box sealing film pasting and mounting machine, which comprises: a machine base; the ink box material moving device is arranged on the base and used for driving the ink box to move along a preset path; the ink box feeding device is arranged on the base and used for supplying the ink box to the ink box moving device; the film sealing and feeding device is arranged on the base and used for providing a sealing film; the sealing film pasting device is arranged on the base and used for pasting the sealing film on the ink box to form an ink box assembly; the ink box discharging device is arranged on the base and used for sending out the ink box assembly; the ink box feeding device, the sealing film pasting device and the ink box discharging device are arranged along a preset path of the ink box. Foretell ink horn seals membrane installation, degree of automation is higher, and production efficiency is higher.

Description

Ink box seal film sticking machine

Technical Field

The utility model relates to an ink box production technology, in particular to an ink box sealing film pasting and mounting machine.

Background

The existing ink box needs to be pasted with a sealing film after the ink filling is finished. The existing mounting process of the ink box sealing film is mainly completed by manually matching some simple tool mechanisms, so that the automation degree is low, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the utility model provides the ink box sealing film pasting and mounting machine which is high in automation degree.

According to the ink box seal film mounter of the embodiment of the utility model, the ink box seal film mounter comprises: a machine base; the ink box material moving device is arranged on the base and used for driving the ink box to move along a preset path; the ink box feeding device is arranged on the base and used for supplying ink boxes to the ink box material moving device; the film sealing and feeding device is arranged on the base and used for providing the sealing film; the sealing film pasting device is arranged on the base and used for pasting the sealing film on the ink box to form an ink box component; the ink box discharging device is arranged on the base and used for sending out the ink box assembly; the ink box feeding device, the sealing film mounting device and the ink box discharging device are arranged along a preset path of the ink box in a moving mode.

The ink box sealing film mounter provided by the embodiment of the utility model has the following beneficial effects: the ink box enters the machine through the ink box feeding device, the ink box moves along a preset path under the action of the ink box moving device, the ink box completes film sealing and mounting through the action of the film sealing feeding device and the film sealing and mounting device, and finally the ink box is sent out of the machine through the ink box discharging device. Foretell ink horn seals membrane installation, degree of automation is higher, and production efficiency is higher.

According to some embodiments of the utility model, further comprising: and the marking device is arranged on the machine base and used for marking the ink box, and the marking device and the sealing film pasting device are arranged side by side along a preset path of the ink box moving.

According to some embodiments of the present invention, the ink cartridge transferring device includes a transferring seat and a transferring manipulator, the transferring seat is disposed on the base, the transferring seat is disposed with an ink cartridge transferring slideway, and the transferring manipulator is disposed on the base and configured to drive the ink cartridge to move along the ink cartridge transferring slideway.

According to some embodiments of the present invention, the ink cartridge feeding device includes a first conveyor, two position-limiting strips, and a material blocking member, the first conveyor is disposed on the base, the two position-limiting strips are disposed on the first conveyor, an ink cartridge position-limiting slide is formed between the two position-limiting strips, the ink cartridge position-limiting slide is used for enabling the ink cartridges to be conveyed on the first conveyor in a linear row, the material blocking member is stopped at one end of the ink cartridge position-limiting slide, an ink cartridge output port is disposed at one end of the ink cartridge position-limiting slide, an ink cartridge inlet port is disposed at one end of the ink cartridge material-shifting slide, the ink cartridge output port is disposed opposite to the ink cartridge inlet port, and the material shifting manipulator is configured to drive the ink cartridges to move from the ink cartridge position-limiting slide to the ink cartridge material-shifting slide.

According to some embodiments of the present invention, the ink cartridge discharging device includes a second conveyor and a pushing mechanism, the second conveyor is disposed on the base and is configured with an ink cartridge feeding end, the pushing mechanism is disposed on the base and is opposite to the ink cartridge feeding end, the other end of the ink cartridge transferring slideway is configured with an ink cartridge feeding outlet, and the transferring manipulator is configured to drive the ink cartridge to move to a position between the pushing mechanism and the ink cartridge feeding end through the ink cartridge feeding outlet.

According to some embodiments of the utility model, the film sealing and mounting device comprises a welding head and a welding head driver, a film sealing and mounting station is arranged on the ink cartridge moving device, the welding head is located above the film sealing and mounting station, the welding head is connected with the welding head driver, the welding head driver is arranged on the base, and the welding head driver is configured to drive the welding head to move up and down.

According to some embodiments of the present invention, the film sealing and feeding device includes a film sealing and storing mechanism, a film sealing and guiding mechanism, and a film sealing and pulling mechanism, the film sealing and storing mechanism is disposed on the base and adapted to store the rolled strip-shaped sealing film, the film sealing and guiding mechanism is disposed on the base and configured to guide the sealing film to be output horizontally and linearly, and the film sealing and pulling mechanism is disposed on the base and configured to pull the sealing film so that a free end of the strip-shaped sealing film can extend to a position below the welding head.

According to some embodiments of the present invention, the sealing film guiding mechanism includes a guiding seat, a horizontally extending linear guiding groove is disposed on the guiding seat, the linear guiding groove is configured with a sealing film inlet end and a sealing film outlet end, the sealing film pulling mechanism includes a receiving seat, a receiving seat driver, and a presser, the receiving seat is movably disposed on the guiding seat and can move along an extending direction of the linear guiding groove, the receiving seat is located on one side of the sealing film outlet end, the receiving seat driver is disposed on the guiding seat and is used for driving the receiving seat to move, the presser is disposed on the receiving seat and is used for pressing the sealing film onto the receiving seat, and the receiving seat is located between the sealing film outlet end and the sealing film mounting station.

According to some embodiments of the present invention, the film sealing and mounting device further includes a film sealing and pulling mechanism, the film sealing and pulling mechanism includes a pulling seat and a pulling seat driver, the pulling seat is provided with a through hole for the film sealing to pass through, the pulling seat is connected to the pulling seat driver, the pulling seat driver is provided on the base, the pulling seat driver is configured to drive the pulling seat to move up and down, the pulling seat is located between the receiving seat and the film sealing and mounting station, and a side of the welding head close to the pulling seat is provided with a cutting edge.

According to some embodiments of the present invention, the marking device includes a marking head and a marking head driver, the marking head is connected to the marking head driver, the marking head driver is disposed on the base, and the marking head driver is configured to drive the marking head to move.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a perspective view of an embodiment of the present invention;

FIG. 2 is a schematic perspective view of an ink cartridge feeding device, an ink cartridge discharging device, and a marking device according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a material transferring robot according to an embodiment of the present invention;

fig. 4 is a second schematic perspective view of the material transferring robot according to the embodiment of the present invention;

FIG. 5 is a schematic view of an operating state of the ink cartridge transferring device according to the embodiment of the present invention;

FIG. 6 is a second schematic view of the ink cartridge transferring device according to the embodiment of the present invention;

FIG. 7 is a third schematic view illustrating the working state of the ink cartridge transferring device according to the embodiment of the present invention;

FIG. 8 is a fourth schematic view of the ink cartridge transferring device according to the embodiment of the present invention;

fig. 9 is a schematic perspective view of a sealing film feeding device and a sealing film mounting device according to an embodiment of the present invention;

fig. 10 is an enlarged schematic view of fig. 9 at a.

Reference numerals:

the ink box component 1, the ink box 11 and the sealing film 12;

a base 100;

the ink box moving device 200, the ink box moving slide 211, the ink box inlet 2111, the ink box outlet 2112, the moving manipulator 220, the moving part 221, the moving claw 2211, the moving part driving mechanism 222, the front and back moving seat 2221, the left and right moving seat 2222, the front and back driver 2223, the left and right driver 2224 and the clamping position 223;

the ink box feeding device 300, the first conveyor 310, the limiting strip 320, the ink box limiting slide rail 321, the ink box output port 3211 and the material blocking piece 330;

the film sealing feeding device 400, the film sealing material storing mechanism 410, the film sealing guide mechanism 420, the guide seat 421, the linear guide groove 4211, the guide roller 422, the film sealing pulling mechanism 430, the bearing seat 431, the bearing seat driver 432 and the presser 433;

the film sealing and mounting device 500, a welding head 510, a welding head driver 520, a film sealing and pulling mechanism 530, a pulling seat 531 and a pulling seat driver 532;

the ink box discharging device 600, the second conveyor 610, the ink box feeding end 611, the pushing mechanism 620, the pushing element 621 and the pushing element driver 622;

marking device 700, marking head 710, marking head driver 720.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1, the ink cartridge sealing film mounter for mounting a sealing film 12 to an ink cartridge 11 includes: the ink box sealing machine comprises a machine base 100, an ink box material moving device 200, an ink box material supplying device 300, a sealing film material supplying device 400, a sealing film mounting device 500 and an ink box discharging device 600. The ink cartridge moving device 200 is disposed on the base 100 and is used for driving the ink cartridge 11 to move along a predetermined path. The ink cartridge feeding device 300 is disposed on the base 100 and is used for supplying the ink cartridges 11 to the ink cartridge transferring device 200. The sealing film feeding device 400 is disposed on the frame 100 and is used for providing the sealing film 12. The film sealing and mounting device 500 is disposed on the base 100 and is used for mounting the sealing film 12 on the ink cartridge 11 to form the ink cartridge assembly 1. The cartridge discharging device 600 is disposed on the base 100 and used for discharging the cartridge assembly 1. The cartridge feeding device 300, the sealing film mounting device 500, and the cartridge discharging device 600 are disposed along a predetermined path along which the ink cartridges 11 move.

The ink box 11 enters the machine through the ink box feeding device 300, the ink box 11 moves along a preset path through the action of the ink box moving device 200, the ink box 11 completes film sealing mounting through the action of the film sealing feeding device 400 and the film sealing mounting device 500, and finally the ink box 11 is sent out of the machine through the ink box discharging device 600. Foretell ink horn seals membrane installation, degree of automation is higher, and production efficiency is higher.

In this embodiment, a marking device 700 is further included, which is disposed on the machine base 100 and is used for marking the ink cartridge 11, and the marking device 700 and the film sealing and mounting device 500 are disposed in parallel along a predetermined path of the ink cartridge 11. The marking device 700 is arranged to mark the ink box 11, and the equipment integrates the marking process, so that the production efficiency is improved.

Referring to fig. 2, in the embodiment, the ink cartridge transferring device 200 includes a transferring seat 210 and a transferring manipulator 220, the transferring seat 210 is disposed on the base 100, an ink cartridge transferring chute 211 is disposed on the transferring seat 210, and the transferring manipulator 220 is disposed on the base 100 and configured to drive the ink cartridge 11 to move along the ink cartridge transferring chute 211. In this embodiment, the path along which the ink cartridge 11 slides in the cartridge material-moving chute 211 is the predetermined path described above. The ink box material moving device 200 is simple in structure and easy to implement. In other embodiments, the ink cartridge moving device 200 may also adopt other structures, such as a combination of a carrying jig and a conveyor, wherein the carrying jig is used for carrying the ink cartridge 11, and the conveyor is used for conveying the carrying jig, so as to realize the movement of the ink cartridge 11 along the predetermined path.

Referring to fig. 3 and 4, in the present embodiment, the material transferring manipulator 220 includes a material transferring part 221 and a material transferring part driving mechanism 222, the material transferring part 221 is provided with a plurality of material transferring claws 2211, a clamping position 223 is formed between the two material transferring claws 2211, the clamping position 223 is suitable for clamping the ink cartridge 11, the clamping position 223 is configured with a separation opening for the ink cartridge 11 to enter and exit, the material transferring part 221 is connected to the material transferring part driving mechanism 222, and the material transferring part driving mechanism 222 is configured to drive the material transferring part 221 to move along two axes (specifically, front and back and left and right) on a horizontal plane. The material moving member driving mechanism 222 includes a front and rear moving seat 2221, a left and right moving seat 2222, a front and rear actuator 2223, and a left and right actuator 2224, wherein the front and rear moving seat 2221 is movably disposed on the machine base 100 and can move forward and backward, and the left and right moving seat 2222 is movably disposed on the front and rear moving seat 2221 and can move left and right, and the movable arrangement can be specifically realized by a matching structure of a guide rail and a sliding sleeve or a linear guide rail pair. The front and rear driver 2223 is disposed on the base 100, connected to the front and rear movable base 2221, and configured to drive the front and rear movable base 2221 to move forward and backward; the left and right actuator 2224 is disposed on the front and rear moving base 2221, connected to the left and right moving base 2222, and configured to move the left and right moving base 2222 left and right. Specifically, in this embodiment, the front and rear drivers 2223 and the left and right drivers 2224 are air cylinders, but may be linear motors, electric push rods, or other devices. In other embodiments, the moving member driving mechanism 222 may be a two-axis moving platform, such as an XY moving platform.

Referring to fig. 5 to 8, when the material transferring manipulator 220 works, the ink cartridge 11 is held by the holding position 223 of the material transferring member 221 and then moved along the ink cartridge material transferring slideway 211, so as to drive the ink cartridge 11 to move. After the ink cartridge 11 is moved a predetermined distance, the material moving member driving mechanism 222 drives the material moving member 221 to move along a direction perpendicular to the ink cartridge material moving slide 211, so that the ink cartridge 11 is separated from the holding position 223, then the material moving member 221 moves along the ink cartridge material moving slide 211 in the reverse direction for the predetermined distance, and moves to the position for holding the ink cartridge 11 again, and then moves along the ink cartridge material moving slide 211 repeatedly, and continues to drive the subsequent ink cartridge 11 to move for the predetermined distance. By repeating the above-described process, the ink cartridge 11 is moved forward in a pipelined manner, one predetermined distance at a time. In the present embodiment, two clamping positions 223 are provided, and when the two clamping positions 223 clamp two ink cartridges 11, the film sealing and mounting device 500 and the marking device 700 perform corresponding process operations on the ink cartridges 11 respectively. In other embodiments, the material transferring manipulator 220 may also adopt other suitable structures as a whole, and is not limited to the embodiment of the present embodiment as long as it can drive the ink cartridge 11 to move along the ink cartridge material transferring slideway 211.

Referring to fig. 2, in this embodiment, the ink cartridge feeding device 300 includes a first conveyor 310, two limiting strips 320 and a material blocking member 330, the first conveyor 310 is disposed on the base 100, the two limiting strips 320 are disposed on the first conveyor 310, an ink cartridge limiting slide 321 is formed between the two limiting strips 320, the ink cartridge limiting slide 321 is used for enabling the ink cartridges 11 to be conveyed on the first conveyor 310 in a linear row, the material blocking member 330 is blocked at one end of the ink cartridge limiting slide 321, an ink cartridge output port 3211 is disposed at one end of the ink cartridge limiting slide 321, an ink cartridge inlet port 2111 is disposed at one end of the ink cartridge transferring slide 211, the ink cartridge output port 3211 is disposed opposite to the ink cartridge inlet port 2111, and the material transferring manipulator 220 is configured to drive the ink cartridges 11 to be moved from the ink cartridge limiting slide 321 to the ink cartridge transferring slide 211. The first conveyor 310 is embodied as a belt conveyor, although other suitable conveyors may be employed. The ink boxes 11 are placed on the first conveyor 310, a row is formed through the action of the ink box limiting slide rail 321 and the material blocking member 330, the material moving manipulator 220 grabs the ink box 11 on the outermost side and sends the ink box 11 into the ink box material moving slide rail 211 through the ink box output port 3211 and the ink box input port 2111, and the rest of the ink boxes 11 are transported and replenished forwards. The ink box feeding device 300 is simple in structure and easy to implement. In other embodiments, the cartridge feeding device 300 may have other configurations as a whole, such as a vibrating plate.

Referring to fig. 2, in the embodiment, the ink cartridge discharging device 600 includes a second conveyor 610 and a pushing mechanism 620, the second conveyor 610 is disposed on the base 100 and is configured with an ink cartridge feeding end 611, the pushing mechanism 620 is disposed on the base 100 and is opposite to the ink cartridge feeding end 611, the other end of the ink cartridge moving slideway 211 is configured with an ink cartridge feeding outlet 2112, and the material moving manipulator 220 is configured to drive the ink cartridge 11 to move to a position between the pushing mechanism 620 and the ink cartridge feeding end 611 through the ink cartridge feeding outlet 2112. The ink cartridge 11 is moved to a position between the pushing mechanism 620 and the ink cartridge feeding end 611 by the material-moving manipulator 220, and the pushing mechanism 620 pushes the ink cartridge 11 to the second conveyor 610 and feeds the ink cartridge out of the second conveyor 610. The ink box discharging device 600 is simple in structure and easy to implement. In this embodiment, the second conveyor 610 is a belt conveyor, but other suitable conveyors may be used. The material pushing mechanism 620 specifically includes a material pushing element 621 and a material pushing element driver 622, the material pushing element 621 is connected to the material pushing element driver 622, the material pushing element driver 622 is disposed on the base 100, and the material pushing element driver 622 is configured to drive the material pushing element 621 to move. Of course, in other embodiments, the pushing mechanism 620 may have other suitable structures, and is not limited to the embodiment of the present embodiment, as long as the ink cartridge 11 can be pushed toward the ink cartridge feeding end 611 of the second conveyor 610. In other embodiments, the cartridge discharging device 600 may be configured as a whole with other suitable structures, such as a robot.

In this embodiment, the ink box transferring chute 211 is vertically arranged with the first conveyor 310 and the second conveyor 610, and the first conveyor 310 and the second conveyor 610 are respectively arranged corresponding to two ends of the ink box transferring chute 211, so that the structure is compact, and the circulation efficiency is high.

Referring to fig. 9 and 10, the film sealing and mounting device 500 includes a bonding head 510 and a bonding head driver 520, a film sealing and mounting station is disposed on the ink cartridge transferring device 200, the bonding head 510 is located above the film sealing and mounting station, the bonding head 510 is connected to the bonding head driver 520, the bonding head driver 520 is disposed on the base 100, and the bonding head driver 520 is configured to drive the bonding head 510 to move up and down. After the ink box 11 moves to the sealing film mounting station, the sealing film 12 is supplied by the sealing film supply device 400, the welding head 510 moves downwards, and the sealing film 12 is welded on the ink box 11 to form the ink box assembly 1. The film sealing and mounting device 500 is simple in structure and easy to implement. In the present embodiment, the welding head 510 may be a welding head structure such as a heat welding head or an ultrasonic welding head, and the welding head driver 520 may be an air cylinder. In other embodiments, the film sealing and mounting device 500 may be other suitable mounting devices as a whole, and is not limited to the embodiment of the present embodiment.

In this embodiment, the film sealing and feeding device 400 includes a film sealing and storing mechanism 410, a film sealing and guiding mechanism 420, and a film sealing and pulling mechanism 430, wherein the film sealing and storing mechanism 410 is disposed on the base 100 and adapted to store the rolled strip-shaped sealing film, the film sealing and guiding mechanism 420 is disposed on the base 100 and configured to guide the sealing film 12 to be output horizontally and linearly, and the film sealing and pulling mechanism 430 is disposed on the base 100 and used to pull the sealing film 12, so that the free end of the strip-shaped sealing film can extend to the lower side of the welding head 510. In this embodiment, the film sealing and storing mechanism 410 is specifically a winding drum, and the wound strip-shaped sealing film is disposed on the winding drum. The end of the strip-shaped sealing film is pulled out to the sealing film guiding mechanism 420, so that the sealing film 12 can be horizontally and linearly output, the sealing film 12 is pulled to move by the sealing film pulling mechanism 430, and the sealing film 12 is moved to the lower part of the welding head 510, so as to complete the process of heat sealing the film.

In this embodiment, the sealing film guiding mechanism 420 includes a guiding seat 421, a horizontally extending linear guiding groove 4211 is disposed on the guiding seat 421, the linear guiding groove 4211 is configured with a sealing film inlet end and a sealing film outlet end, the sealing film pulling mechanism 430 includes a receiving seat 431, a receiving seat driver 432 and a presser 433, the receiving seat 431 is movably disposed on the guiding seat 421 and can move along the extending direction of the linear guiding groove 4211, the receiving seat 431 is located on one side of the sealing film outlet end, the receiving seat driver 432 is disposed on the guiding seat 421 and is used for driving the receiving seat 431 to move, the presser 433 is disposed on the receiving seat 431 and is used for pressing the sealing film 12 onto the receiving seat 431, and the receiving seat 431 is located between the sealing film outlet end and the sealing film mounting station. When the sealing film 12 needs to be pulled after the sealing film 12 is drawn into the linear guide groove 4211, the pressing device 433 presses the sealing film 12 against the socket 431, and the socket driver 432 drives the socket 431 to move in the extending direction of the linear guide groove 4211, so that the sealing film 12 is pulled to move. In order to better guide the sealing film 12, a guide roller 422 is arranged on one side of the guide seat 421 close to the film entering end, and the sealing film 12 passes through the guide roller 422 and then is introduced into the linear guide groove 4211. In this embodiment, the pressing device 433 includes a pressing block and a pressing block driver, the pressing block is connected to the pressing block driver, the pressing block driver is disposed on the receiving seat 431, the pressing block driver is specifically a cylinder, and the pressing block driver drives the pressing block to move, so as to press the sealing film 12 on the receiving seat 431 or release the sealing film 12. In other embodiments, the sealing film feeding device 400 may also adopt other suitable device mechanisms as a whole, and is not limited to the embodiment of the embodiment, and only can supply the sealing film 12 to the corresponding position.

In this embodiment, the film sealing and mounting device 500 further includes a film sealing and pulling mechanism 530, the film sealing and pulling mechanism 530 includes a pulling seat 531 and a pulling seat driver 532, a through hole for the film sealing 12 to pass through is formed in the pulling seat 531, the pulling seat 531 is connected to the pulling seat driver 532, the pulling seat driver 532 is disposed on the base 100, the pulling seat driver 532 is configured to drive the pulling seat 531 to move up and down, the pulling seat 531 is located between the receiving seat 431 and the film sealing and mounting station, and a cutting edge is disposed on one side of the welding head 510 close to the pulling seat 531. After the film sealing and mounting device 500 completes the film sealing and mounting, the pulling seat 531 is driven by the pulling seat driver 532 to move upward, and the sealing film 12 is cut by contacting with the edge of the welding head 510. In the present embodiment, the seat actuator 532 is embodied as an air cylinder, and in other embodiments, the seat actuator 532 may be implemented as a mechanism such as an electric push rod.

In the embodiment, the marking device 700 includes a marking head 710 and a marking head driver 720, the marking head 710 is connected to the marking head driver 720, the marking head driver 720 is disposed on the base 100, and the marking head driver 720 is configured to drive the marking head 710 to move. When the ink cartridge 11 moves to a station corresponding to the marking device 700, the marking head driver 720 drives the marking head 710 to move, the marking head 710 is stamped on the ink cartridge 11, and the identification information is formed on the ink cartridge 11. In other embodiments, the marking device 700 as a whole may also employ other device mechanisms, such as a laser marking machine, etc.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (10)

1. Ink horn seal membrane kludge for inciting somebody to action seal membrane (12) dress in ink horn (11), its characterized in that includes:

a frame (100);

the ink box material moving device (200) is arranged on the machine base (100) and is used for driving the ink box (11) to move along a preset path;

the ink box feeding device (300) is arranged on the machine base (100) and is used for supplying the ink box (11) to the ink box material moving device (200);

the sealing film feeding device (400) is arranged on the stand (100) and is used for providing the sealing film (12);

the sealing film mounting device (500) is arranged on the base (100) and is used for mounting the sealing film (12) on the ink box (11) to form an ink box assembly (1); and

the ink box discharging device (600) is arranged on the base (100) and used for sending out the ink box assembly (1); wherein the content of the first and second substances,

the ink box feeding device (300), the sealing film mounting device (500) and the ink box discharging device (600) are arranged along a preset path of the ink box (11).

2. The ink cartridge sealing film mounter according to claim 1, further comprising:

the marking device (700) is arranged on the machine base (100) and used for marking the ink box (11), and the marking device (700) and the film sealing and mounting device (500) are arranged side by side along a preset path of the ink box (11) in a moving mode.

3. The ink box sealing film mounter according to claim 1, wherein the ink box transferring device (200) comprises a transferring seat (210) and a transferring manipulator (220), the transferring seat (210) is arranged on the base (100), an ink box transferring slideway (211) is arranged on the transferring seat (210), and the transferring manipulator (220) is arranged on the base (100) and configured to drive the ink box (11) to move along the ink box transferring slideway (211).

4. The ink cartridge sealing and pasting machine according to claim 3, wherein the ink cartridge feeding device (300) comprises a first conveyor (310), two limiting strips (320) and a blocking member (330), the first conveyor (310) is disposed on the base (100), the two limiting strips (320) are disposed on the first conveyor (310), an ink cartridge limiting slide (321) is formed between the two limiting strips (320), the ink cartridge limiting slide (321) is used for enabling the ink cartridges (11) to be conveyed on the first conveyor (310) in a linear row, the blocking member (330) is blocked at one end of the ink cartridge limiting slide (321), one end of the ink cartridge limiting slide (321) is provided with an ink cartridge output port (3211), one end of the ink cartridge transferring slide (211) is provided with an ink cartridge inlet port (2111), and the ink cartridge output port (3211) is disposed opposite to the ink cartridge inlet port (2111), the material moving manipulator (220) is configured to drive the ink box (11) to move from the ink box limiting slide way (321) to the ink box material moving slide way (211).

5. The ink cartridge sealing and film mounting machine according to claim 3, wherein the ink cartridge discharging device (600) comprises a second conveyor (610) and a material pushing mechanism (620), the second conveyor (610) is disposed on the base (100) and is configured with an ink cartridge feeding end (611), the material pushing mechanism (620) is disposed on the base (100) and is opposite to the ink cartridge feeding end (611), the other end of the ink cartridge transferring slideway (211) is configured with an ink cartridge feeding outlet (2112), and the material transferring manipulator (220) is configured to drive the ink cartridge (11) to move to a position between the material pushing mechanism (620) and the ink cartridge feeding end (611) through the ink cartridge feeding outlet (2112).

6. The ink cartridge sealing film mounter according to claim 1, wherein the sealing film mounting device (500) comprises a welding head (510) and a welding head driver (520), a sealing film mounting station is arranged on the ink cartridge moving device (200), the welding head (510) is located above the sealing film mounting station, the welding head (510) is connected with the welding head driver (520), the welding head driver (520) is arranged on the base (100), and the welding head driver (520) is configured to drive the welding head (510) to move up and down.

7. The ink cartridge sealing film mounter according to claim 6, wherein the sealing film feeding device (400) comprises a sealing film stock mechanism (410), a sealing film guide mechanism (420) and a sealing film pulling mechanism (430), the sealing film stock mechanism (410) is arranged on the base (100) and is adapted to store the rolled strip-shaped sealing film, the sealing film guide mechanism (420) is arranged on the base (100) and is configured to guide the sealing film (12) to be horizontally and linearly output, and the sealing film pulling mechanism (430) is arranged on the base (100) and is used for pulling the sealing film (12) so that a free end of the strip-shaped sealing film can extend to a position below the welding head (510).

8. The ink cartridge sealing film mounter according to claim 7, wherein the sealing film guiding mechanism (420) includes a guiding base (421), a horizontally extending linear guide groove (4211) is provided on the guiding base (421), the linear guide groove (4211) is configured with a sealing film inlet end and a sealing film outlet end, the sealing film pulling mechanism (430) includes a receptacle (431), a receptacle driver (432), and a presser (433), the receptacle (431) is movably provided on the guiding base (421) and is movable along an extending direction of the linear guide groove (4211), the receptacle (431) is located on one side of the sealing film outlet end, the receptacle driver (432) is provided on the guiding base (421) and is configured to drive the receptacle (431) to move, the presser (433) is provided on the receptacle (431) and is configured to press the sealing film (12) against the receptacle (431), the bearing seat (431) is positioned between the film sealing delivery end and the film sealing mounting station.

9. The ink cartridge film sealing and mounting machine according to claim 8, wherein the film sealing and mounting device (500) further comprises a film sealing and pulling mechanism (530), the film sealing and pulling mechanism (530) comprises a pulling seat (531) and a pulling seat driver (532), a through hole for the sealing film (12) to pass through is formed in the pulling seat (531), the pulling seat (531) is connected with the pulling seat driver (532), the pulling seat driver (532) is arranged on the machine base (100), the pulling seat driver (532) is configured to drive the pulling seat (531) to move up and down, the pulling seat (531) is located between the bearing seat (431) and the film sealing and mounting station, and a cutting edge is arranged on one side, close to the pulling seat (531), of the welding head (510).

10. The machine according to claim 2, wherein the marking device (700) comprises a marking head (710) and a marking head driver (720), the marking head (710) is connected to the marking head driver (720), the marking head driver (720) is disposed on the machine base (100), and the marking head driver (720) is configured to drive the marking head (710) to move.

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