CN107826285B

CN107826285B - Infusion apparatus packaging machine

Info

Publication number: CN107826285B
Application number: CN201711220740.6A
Authority: CN
Inventors: 林森; 林鹏; 陈晓; 王大磊
Original assignee: Shanghai Yingtai Medical Device Automation Co ltd
Current assignee: Shanghai Yingtai Medical Device Automation Co ltd
Priority date: 2017-11-29
Filing date: 2017-11-29
Publication date: 2024-04-12
Anticipated expiration: 2037-11-29
Also published as: CN107826285A

Abstract

The invention discloses an infusion apparatus packaging machine, which comprises a bagging film conveying frame for horizontally conveying bagging films and a discharging track which is connected with the bagging film conveying frame by side; a horizontal pressing roller which corresponds to the discharging track and is axially perpendicular to the bagging film conveying frame is arranged above the bagging film conveying frame; five working surfaces are arranged around the peripheral wall of the horizontal compression roller, a transmission device is arranged in the horizontal compression roller, and each working surface is transmitted to pass through a bag feeding station, a bag forming station, a pushing station, a sealing station and a standby station in sequence; each working surface is provided with a material sucking device, and the bag feeding station comprises a first heat sealing mechanism, a paper feeding mechanism and a cutting mechanism from bottom to top in sequence; the pushing station is provided with a feeding mechanism; the sealing station is provided with a second heat sealing mechanism. The automatic packaging device has the technical effects that the automatic packaging of the infusion apparatus can be realized, and the occupied area is small.

Description

Infusion apparatus packaging machine

Technical Field

The invention relates to an infusion apparatus packaging machine in the field of medical instrument manufacturing.

Background

The existing disposable infusion set is packaged manually, firstly, the printed package film is cut into individual packaging bags by a machine, the bottom opening of the cut packaging bags is placed on a sealing machine to seal the packaging bags, then the infusion set is placed in the packaging bags with the bottom opening sealed according to a certain sequence, and then the upper opening of the packaging bags with the infusion set is placed on the sealing machine to seal the packaging bags.

The infusion apparatus is easy to attach germs and foreign matters in the packaging process, is not safe enough, is low in manual packaging efficiency, is unfavorable for large-scale production, is not reasonable enough in overall design, and is high in labor intensity and poor in practicality.

In order to improve the prior art, people have long explored, various solutions are proposed to pack the infusion set, but the existing infusion set packing machine cannot realize full-intelligent automatic control and has large occupied area.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an infusion apparatus packaging machine which can realize automatic packaging of infusion apparatuses and has small occupied area.

The technical scheme for achieving the purpose is as follows: an infusion apparatus packaging machine comprises a bag film conveying frame for horizontally conveying bag films and a discharging track which is connected with the bag film conveying frame by side;

a horizontal pressing roller which corresponds to the discharging track and is axially perpendicular to the bagging film conveying frame is arranged above the bagging film conveying frame; five working surfaces are arranged around the peripheral wall of the horizontal compression roller, a transmission device is arranged in the horizontal compression roller, and each working surface is transmitted to pass through a bag feeding station, a bag forming station, a pushing station, a sealing station and a standby station in sequence;

each working surface is provided with a material sucking device;

the bag feeding station comprises the following steps from bottom to top: the first heat sealing mechanism is used for forming a heat seal line on the bag forming film and is used for conveying the bag forming film to a paper feeding mechanism corresponding to the working surface on the horizontal pressing roller; a cutting mechanism for cutting the bagging film along the heat-seal line and forming the packaging bag on the bagging station;

the pushing station is provided with a feeding mechanism for opening the packaging bags on the corresponding working surfaces and feeding the infusion apparatus into the packaging bags;

the sealing station is provided with a second heat sealing mechanism for heat sealing the opening end of the packaging bag on the corresponding working surface.

Further, a steering roller positioned on the top surface of the bag forming film conveying frame is arranged below the first heat sealing mechanism.

Further, the paper feeding mechanism comprises a paper feeding guide rail, a paper feeding cylinder capable of sliding along the paper feeding guide rail, and a finger clamping cylinder positioned at the front end of the paper feeding cylinder and used for clamping the bagging film.

Still further, the shutdown mechanism includes the cutter, and in the top surface of cutter with the shutdown cylinder that the cutter is connected.

Furthermore, each working surface of the horizontal pressing roller is a working surface protruding outwards in the radial direction, and the front end of each working surface is provided with a clamping device for clamping a heat seal line of a bag film or a sealing end of a packaging belt.

Further, the feeding mechanism includes: the opening device is parallel to the corresponding working surface on the horizontal pressing roller and used for opening the packaging bag on the corresponding working surface, a vacuum air suction port for sucking the opening end of the packaging bag on the corresponding working surface is arranged at the bottom end of the opening device, a feeding channel for feeding the infusion apparatus into the packaging bag is arranged on the opening device, and the top of the opening device is connected with a feeding cylinder.

Further, the first heat-sealing mechanism, the paper feeding mechanism, the cutting mechanism, the feeding mechanism and the second heat-sealing mechanism are all located in one package shell.

Still further, the package housing is externally provided with a roll paper and a printer positioned on the top surface of the bagging film carrier.

The technical scheme of the infusion apparatus packaging machine comprises a bag film conveying frame for horizontally conveying bag films and a discharging track which is connected with the bag film conveying frame; a horizontal pressing roller which corresponds to the discharging track and is axially perpendicular to the bagging film conveying frame is arranged above the bagging film conveying frame; five working surfaces are arranged around the peripheral wall of the horizontal compression roller, a transmission device is arranged in the horizontal compression roller, and each working surface is transmitted to pass through a bag feeding station, a bag forming station, a pushing station, a sealing station and a standby station in sequence; each working surface is provided with a material sucking device; the bag feeding station comprises the following steps from bottom to top: the first heat sealing mechanism is used for forming a heat seal line on the bag forming film and is used for conveying the bag forming film to a paper feeding mechanism corresponding to the working surface on the horizontal pressing roller; a cutting mechanism for cutting the bagging film along the heat-seal line and forming the packaging bag on the bagging station; the pushing station is provided with a feeding mechanism for opening the packaging bags on the corresponding working surfaces and feeding the infusion apparatus into the packaging bags; the sealing station is provided with a second heat sealing mechanism for heat sealing the opening end of the packaging bag on the corresponding working surface. The technical effects are as follows: can realize the automatic packaging of the transfusion device and has small occupied area.

Drawings

Fig. 1 is a front view of an infusion set packaging machine of the present invention.

Fig. 2 is a perspective view of the southeast side of an infusion set packaging machine of the present invention.

Fig. 3 is an enlarged view of a portion a of fig. 2.

Fig. 4 is a perspective view of a southwest side of an infusion set packaging machine of the present invention.

Fig. 5 is an enlarged view of a portion B of fig. 4.

Fig. 6 is a perspective view of the southeast side of an infusion set packaging machine of the present invention.

Detailed Description

Referring to fig. 1 to 6, in order to better understand the technical solutions of the present invention, the following detailed description is given by specific embodiments with reference to the accompanying drawings:

referring to fig. 1 to 6, an infusion apparatus packaging machine of the present invention includes a bagging film carrier 1, and a paper roll 11, a printer 12, and a package housing 10 sequentially disposed on a top surface of the bagging film carrier 1 along an axial direction of the bagging film carrier 1. The package housing 10 is located at the end of the bagging film carrier 1. The bagging film conveying frame 1 is connected with a discharging track 13 corresponding to the packaging shell 10. The bagging film carrier 1 is used for conveying extrusion blow-molded bagging films into the package housing 10.

The packing shell 10 is internally provided with a horizontal compression roller 2 which corresponds to the position of the discharging track 13 and is axially vertical to the bagging film conveying frame 1, the horizontal compression roller 2 is a regular pentagonal roller, the peripheral wall of the horizontal compression roller 2 is correspondingly provided with five working faces 22, the horizontal compression roller 2 is internally provided with a transmission device 21, the five working faces 22 are transmitted, each working face 22 sequentially passes through five stations in the packing shell 10, and the five stations sequentially comprise a bag feeding station, a bag forming station, a pushing station, a sealing station and a standby station. A suction device is arranged in each working surface 22 of the horizontal pinch roller 2. The suction device is preferably a vacuum suction device.

The bag feeding station comprises a first heat sealing mechanism 3, a paper feeding mechanism 4 and a cutting mechanism 5. The bagging film enters the package housing 10 from a housing inlet (not shown) located at the proximal end of the package housing 10 and the first heat seal mechanism 3 is located above the housing inlet of the package housing 10. The first heat-seal mechanism 3 changes the moving direction of the bag-forming film from horizontal to vertical upward while leaving the heat-seal line on the bag-forming film. Correspondingly, the housing inlet of the package housing 10 below the first heat-sealing mechanism 3 is provided with a turning roll 14 located on the top surface of the bag-forming film carrier 1.

The paper feeding mechanism 4 is located above the first heat sealing mechanism 3, and the paper feeding mechanism 4 has the function of turning the bagging film moving vertically upwards, conveying the bagging film to the corresponding working surface 22 of the horizontal pressing roller 2, and positioning between the bagging film and the corresponding working surface 22 of the horizontal pressing roller 2 is completed, and the working surface 22 is attached to the bagging film through a built-in material absorbing device.

The paper feeding mechanism 4 comprises a paper feeding guide rail 41, a paper feeding cylinder 42 capable of sliding along the paper feeding guide rail 41, and a finger clamping cylinder 43 which is positioned at the front end of the paper feeding cylinder 42 and parallel to the paper feeding cylinder 42 and is used for clamping the bagging film. The paper feed cylinder 42 is disposed obliquely. The bagging film approaches the corresponding working surface 22 on the horizontal compacting roller 2 through the positioning action of the paper feeding guide rail 41 and the paper feeding air cylinder 42 and the clamping and conveying of the finger clamping air cylinder 43, and is attached to the working surface under the action of the material sucking device arranged in the working surface 22.

The cutoff mechanism 5 is located on the top surface of the finger grip cylinder 43 and is parallel to the finger grip cylinder 43. The cutting mechanism 5 includes a cutter 51 disposed in parallel with the finger grip cylinder 43 on the top surface of the finger grip cylinder 43, and a cutting cylinder 52 connected to the cutter 51 on the top surface of the cutter 51.

The bagging film moves obliquely upwards under the action of the paper feeding mechanism 4 and approaches and accurately conforms to the corresponding working surface 22 of the horizontal pressing roller 2. The front end of the working surface 22 is tensioned to form a bag film along a heat sealing line of the bag film, and the working surface 22 is adsorbed to form the bag film through a built-in material absorbing device. The work surface 22 is then driven to the bagging station by the drive means 21 in the horizontal pinch roller 2. The bagging station is horizontal.

Every time the horizontal pinch roller 2 rotates one station forwards, the cutting cylinder 52 drives the cutter 51 to extend forwards once, the bag film is cut off at the front side of the corresponding working surface 22, and a packaging bag is obtained at the bag forming station. The sealing end of the packing bag corresponds to the heat-sealing line of the bag forming film and is tensioned by the front end of the corresponding working surface 22, and the opening end of the packing bag is absorbed by a sucking device arranged in the working surface 22, so that the packing bag clings to the working surface 22, and the direction of the opening end of the packing bag is opposite to the transmission direction of the horizontal pinch roller 2.

In order to facilitate the adsorption of the bagging film or bag by the horizontal pinch roller 2, each working surface 22 of the horizontal pinch roller 2 is a working surface protruding radially outwards, and a clamping device 23 is arranged at the front end of each working surface 22 and is used for clamping the sealing end of the heat seal line or the packaging belt of the bagging film.

The pushing station is located at the distal end of the package housing 10, and comprises a feeding mechanism 6, wherein the feeding mechanism 6 is parallel to the working surface 22 corresponding to the horizontal pressing roller 2, and comprises a spreading device 61 parallel to the working surface 22 corresponding to the horizontal pressing roller 2 and used for spreading the package bag on the corresponding working surface 22, and a vacuum air suction port (not shown in the figure) is arranged at the front end of the spreading device 61 and used for sucking the open end of the package bag on the corresponding working surface 22. The spreading device 61 is also provided with a feeding channel 611 axially parallel to the spreading device 61. The vacuum suction port sucks the open end of the package, then the opening device 61 opens the package, and the infusion set is fed into the package along the feeding path 611. The top of the spreader 61 is connected with a feed cylinder 62 parallel to the spreader 61. The transmission device 21 in the horizontal pinch roller 2 drives the five working surfaces 22 after the feeding cylinder 62 drives the spreading device 61 to recover. When the transmission device 21 in the horizontal pinch roller 2 transmits the five working surfaces 22, the feeding cylinder 62 drives the opening device 61 to extend into the packaging bag along the direction parallel to the corresponding working surface 22, so as to open the packaging bag and send the infusion set into the packaging bag.

The sealing station is provided with a second heat sealing mechanism 7, at this time, the sealing end of the packaging bag is still clamped by the clamping device 23 on the corresponding working surface 22, the opening end of the packaging bag is separated from the horizontal pressing roller 2 under the action of gravity, and at this time, the second heat sealing mechanism 7 heat seals the opening end of the packaging bag, and the infusion apparatus is sealed in the packaging bag. After the heat sealing of the second heat sealing mechanism 7 to the opening end of the packaging bag is completed, the corresponding working surface 22 is transmitted from the sealing station to the standby station through the transmission of the transmission device 21 in the horizontal pressing roller 2, and in the process, the clamping device 23 on the working surface 22 is loosened, and the packaged infusion apparatus falls into the discharging track 13 to complete packaging.

In this embodiment, the roll 11 is used for discharging the bagging film, and the printer 12 is used for printing the bagging film, which are all options.

In order to ensure the same specifications of the packaging bag and the smooth progress of the packaging, the movements of the paper roll 11, the printer 12, the first heat-sealing mechanism 3, the paper feed mechanism 4, the cutting mechanism 5, the feeding mechanism 6, the second heat-sealing mechanism 7, and the transmission 21 of the horizontal pinch roller 2 are synchronized.

It will be appreciated by persons skilled in the art that the above embodiments are provided for illustration only and not for limitation of the invention, and that variations and modifications of the above described embodiments are intended to fall within the scope of the claims of the invention as long as they fall within the true spirit of the invention.

Claims

1. An infusion apparatus packaging machine comprises a bag film conveying frame for horizontally conveying bag films and a discharging track which is connected with the bag film conveying frame by side; the method is characterized in that:

further comprises: the paper roll and the printer are sequentially arranged on the top surface of the bag-forming film conveying frame along the axial direction of the bag-forming film conveying frame;

each working surface of the horizontal pressing roller is a working surface protruding outwards in the radial direction, and the front end of each working surface is provided with a clamping device for clamping a heat seal line of a bag film or a sealing end of a packaging belt;

each working surface is provided with a material sucking device;

the paper feeding mechanism comprises a paper feeding guide rail, a paper feeding cylinder capable of sliding along the paper feeding guide rail, and a finger clamping cylinder which is positioned at the front end of the paper feeding cylinder and parallel to the paper feeding cylinder and used for clamping the bagging film; the paper feeding cylinder is obliquely arranged; the bagging film is close to a corresponding working surface on the horizontal compaction roller through the positioning action of the paper feeding guide rail and the paper feeding air cylinder and the clamping and conveying of the finger clamping air cylinder, and is attached to the working surface under the action of a suction device arranged in the working surface;

the cutting mechanism is positioned on the top surface of the finger clamping cylinder and is parallel to the finger clamping cylinder; the cutting mechanism comprises a cutter which is arranged on the top surface of the finger clamping cylinder in parallel with the finger clamping cylinder and a cutting cylinder which is connected with the cutter on the top surface of the cutter;

the sealing station is provided with a second heat sealing mechanism for heat sealing the opening end of the packaging bag on the corresponding working surface;

the movements of the paper roll, the printer, the first heat-sealing mechanism, the paper feed mechanism, the cutting mechanism, the feeding mechanism, the second heat-sealing mechanism, and the transmission of the horizontal pinch roller are synchronized.

2. An infusion set packaging machine according to claim 1, wherein: and a steering roller positioned on the top surface of the bag forming film conveying frame is arranged below the first heat sealing mechanism.

3. An infusion set packaging machine according to claim 1, wherein: the feeding mechanism comprises: the opening device is parallel to the corresponding working surface on the horizontal pressing roller and used for opening the packaging bag on the corresponding working surface, a vacuum air suction port for sucking the opening end of the packaging bag on the corresponding working surface is arranged at the bottom end of the opening device, a feeding channel for feeding the infusion apparatus into the packaging bag is arranged on the opening device, and the top of the opening device is connected with a feeding cylinder.

4. An infusion set packaging machine according to claim 1, wherein: the first heat sealing mechanism, the paper feeding mechanism, the cutting mechanism, the feeding mechanism and the second heat sealing mechanism are all located in a package shell.

5. The infusion set packaging machine of claim 4, wherein: the package shell is provided with a roll paper and a printer which are arranged on the top surface of the bag-forming film conveying frame.