CN110667937B - A medicine plate cooling and leveling device for an aluminum-plastic blister machine and its application - Google Patents

Abstract

The present invention provides a medicine plate cooling and leveling device for an aluminum-plastic blister machine, comprising: a cooler and a support plate; the cooler and the support plate are respectively arranged on the upper and lower sides of a product belt; the cooler has at least one cooling hole; cooling liquid or gas is passed through the cooling hole; the support plate has an escape portion; the medicine bubble enters the escape portion, the support plate is pressed on one side of the product belt, and the cooler is pressed on the other side of the product belt. The advantage is that a cooling and shaping device is added to force and efficiently cool and shape the medicine plate, so that the finished medicine plate after blistering is leveled, solving the problem of serious arc deformation of the medicine plate.

Description

Drug plate cooling and leveling device of aluminum plastic bubble cap machine and application

Technical Field

The invention relates to a medicine plate cooling and leveling device of an aluminum plastic bubble cap machine and the aluminum plastic bubble cap machine.

Background

At present, when pharmaceutical enterprises pack sheet-shaped medicines, aluminum plastic blister packages are more used.

The material used for the bubble cap, the flat plastic sheet and the composite aluminum film are two materials with different temperature coefficients. When the two materials are integrated after heat sealing, the shrinkage rates of the two materials are different after cooling at room temperature, and the product after the bubble cap is uneven and has serious longitudinal or transverse arc deformation. The arc deformation seriously affects the appearance of the product and the normal operation of the boxing machine in the subsequent working procedure.

The existing bubble cap machine uses an air blowing pipe to blow and cool the uncut hot medicine plate after the heat sealing process, but the effect is poor.

Disclosure of Invention

The medicine plate cooling and leveling device of the aluminum-plastic bubble cap machine provided by the invention is additionally provided with the cooling and leveling device, so that the medicine plate is subjected to forced efficient cooling and leveling, the finished medicine plate after bubble cap is leveled, and the problem of serious arc deformation of the medicine plate is solved, so that the defects of the prior art are overcome.

The invention provides a medicine plate cooling and leveling device of an aluminum plastic bubble cap machine, which comprises a cooler and a supporting plate, wherein the cooler and the supporting plate are respectively arranged on the upper side and the lower side of a product belt, at least one cooling hole is formed in the cooler, cooling liquid or gas is introduced into the cooling hole, the supporting plate is provided with an avoiding part, medicine bubbles enter the avoiding part, the supporting plate is pressed on one side of the product belt, and the cooler is pressed on the other side of the product belt.

The invention further provides a medicine plate cooling and leveling device of the aluminum plastic bubble cap machine, which comprises an arc-shaped surface, which is bonded with a product belt, of a cooler, an arc-shaped surface, which is bonded with the product belt, of a supporting plate, and an arc-shaped matching surface of the cooler and the supporting plate.

Furthermore, the invention provides a medicine plate cooling and leveling device of the aluminum-plastic bubble cap machine, which can be characterized in that the avoiding part is strip-shaped.

The invention further provides a medicine plate cooling and leveling device of the aluminum plastic bubble cap machine, which is characterized in that the supporting plate and the cooler are always pressed on two sides of the product belt, the product belt continuously passes through the space between the supporting plate and the cooler, and medicine bubbles pass through the strip-shaped avoiding parts.

The invention further provides a medicine plate cooling and leveling device of the aluminum plastic bubble cap machine, which can be characterized in that the avoiding part is provided with a plurality of avoiding holes, and the positions and the sizes of the avoiding holes are matched with those of medicine bubbles.

The invention further provides a medicine plate cooling and leveling device of the aluminum plastic bubble cap machine, which is characterized in that a supporting plate moves close to and away from a product belt, the supporting plate moves close to the product belt, medicine bubbles are embedded into an avoidance hole, the supporting plate is attached to one side of the product belt, the supporting plate moves away from the product belt, the medicine bubbles leave the avoidance hole, the product belt moves, and the next position of the product belt moves between the supporting plate and a cooler.

Furthermore, the invention provides a medicine plate cooling and leveling device of the aluminum plastic bubble cap machine, which can be characterized in that the cooling holes are parallel to the conveying direction of the product belt.

Furthermore, the invention provides a medicine plate cooling and leveling device of the aluminum-plastic bubble cap machine, which can be characterized in that the cooling holes are symmetrically arranged on the cooler.

In addition, the invention provides an aluminum-plastic bubble cap machine, which comprises a flat plastic conveying device, a composite aluminum film conveying device and a product conveying device; the device comprises a flat plastic conveying device, a product cutting device, a blowing device, a medicine granule adding device, a heat sealing device, a blowing device, a medicine board cooling and leveling device and a product cutting device, wherein the flat plastic conveying device and the product conveying device sequentially convey flat plastic to the blowing device, the medicine granule adding device, the heat sealing device, the blowing device, the medicine board cooling and leveling device and the product cutting device, the blowing device blows medicine bubbles out of the flat plastic, the medicine granule adding device adds medicine granules into the medicine bubbles, the composite aluminum film conveying device and the product conveying device sequentially convey composite aluminum films to the heat sealing device, the blowing device, the medicine board cooling and leveling device and the product cutting device, the heat sealing device heat-seals the flat plastic added with the medicine granules and the composite aluminum film together to form a product belt, the blowing device blows and cools the product belt after heat sealing, the medicine board cooling and leveling device further cools and shapes the product belt after cooling and shaping, and the product cutting device cuts the product belt after cooling and shaping.

The invention further provides an aluminum plastic bubble cap machine which can be characterized by further comprising a batch imprinting device, wherein the batch imprinting device is arranged between the air blowing device and the cooling and leveling device and is used for carrying out batch imprinting on a product belt, and the flat plastic conveying device, the composite aluminum film conveying device and the product conveying device are conveyed by adopting conveying rollers.

Drawings

Fig. 1 is a schematic structural view of an aluminum plastic blister machine in a first embodiment.

Fig. 2 is a schematic structural view of a medicine plate cooling and leveling device of an aluminum plastic blister machine in the first embodiment.

Fig. 3 is a schematic structural diagram of a cooler in the first embodiment.

Fig. 4 is a schematic structural view of a pallet in the first embodiment.

Fig. 5 is a schematic structural view of a medicine plate cooling and leveling device of an aluminum-plastic blister machine in the second embodiment.

Detailed Description

The invention is further described below with reference to the drawings and specific embodiments.

Example 1

As shown in fig. 1 to 3, in the present embodiment, the aluminum plastic blister machine includes a flat plastic PS conveying device 100, a bubble blowing device 200, a granule feeding device 300, a composite aluminum film FL conveying device 400, a heat sealing device 500, a blowing device 600, a batch imprinting device 10, a tablet cooling and leveling device 700, a product conveying device 800, and a product cutting device 900.

The bubble blowing device 200, the medicine granule adding device 300, the heat sealing device 500, the blowing device 600, the medicine board cooling and leveling device 700, the product conveying device 800 and the product cutting device 900 are arranged on the bubble cap machine frame 1000 in sequence.

The flat plastic PS conveying device 100 and the product conveying device 800 sequentially convey the flat plastic PS to the bubble blowing device 200, the granule adding device 300, the heat sealing device 500, the air blowing device 600, the tablet cooling and leveling device 700, and the product cutting device 900. The bubbling device 200 blows out bubbles of medicine on the flat plastic PS. The pellet feeder 300 adds pellets into the drug blister. The composite aluminum film FL conveyor 400 and the product conveyor 800 sequentially convey the composite aluminum film FL to the heat sealing device 500, the air blowing device 600, the medicine plate cooling and leveling device 700, and the product cutting device 900. The heat-sealing device 500 heat-seals the tablet plastic PS to which the drug particles are added and the composite aluminum film FL together into a product tape PD. The air blowing device 600 blows air to cool the heat-sealed product tape PD. The drug plate cooling and leveling device 700 further cools and shapes the blown product belt PD. The product cutting device 900 cuts the cooled and shaped product tape PD.

In the present embodiment, the batch imprinting apparatus 10 is disposed between the blowing apparatus 600 and the cooling and leveling apparatus, and performs batch imprinting on the product tape PD. The batch imprinting apparatus 10 may be disposed at any position after the production of the product tape PD, or may be disposed after the tablet cooling and leveling apparatus 700.

In the present embodiment, the flat plastic PS conveyor 100, the composite aluminum film FL conveyor 400, and the product conveyor 800 are conveyed by a conveyor roller structure.

In this embodiment, the tablet cooling and leveling device 700 includes a cooler 710 and a pallet 720. The cooler 710 and the pallet 720 are disposed on both sides of the product tape PD, respectively. Further, in the present embodiment, the cooler 710 is disposed at one side of the composite aluminum film FL, i.e., above, and the pallet 720 is disposed at one side of the flat plastic PS, i.e., above.

The cooler 710 has two cooling holes 711 therein. The cooling holes 710 are parallel to the conveying direction of the product tape PD, and the cooling holes 711 are symmetrically provided on the cooler 710. The cooling holes 712 are filled with a cooling liquid or gas to cool the product tape PD. The cooling surface 712 of the cooler 710, i.e., the surface against which the product tape PD is attached, is arcuate, thereby increasing the reforming area and reversing the effect of pressing the product tape PD (without reforming, the product tape PD bends toward the flat sheet plastic PS).

The pallet 720 has a relief portion 712, and in this embodiment, the relief portion 712 is in the shape of a bar. The width of the strip-shaped avoiding portion 712 may be the width of one row of medicine bubbles or the width of a plurality of rows of medicine bubbles. The face of the pallet 720 that is to be attached to the product strip is also arcuate and the cooler 710 matches the arcuate shape of the pallet 720.

The product strip PD continuously passes through the tablet cooling and leveling device 700 under the influence of the product conveyor 800. The pallet 720 and the cooler 710 are always pressed against both sides of the product strip. The medicine bubbles pass through the strip-shaped avoiding part 712 of the supporting plate 720, the supporting plate 720 is pressed on one side of the product belt PD, the cooler 710 is pressed on the other side of the product belt PD, and the product belt PD is cooled and shaped.

Example two

As shown in fig. 5, the plastic-aluminum blister machine of this embodiment is identical to the one of the first embodiment except for the configuration of the tablet cooling and leveling device and the manner of conveyance, and the description thereof will not be repeated.

In this embodiment, the tablet cooling and leveling device 700 includes a cooler 710 and a pallet 720. The cooler 710 and the pallet 720 are disposed on both sides of the product tape PD, respectively. Further, in the present embodiment, the cooler 710 is disposed at one side of the composite aluminum film FL, i.e., above, and the pallet 720 is disposed at one side of the flat plastic PS, i.e., above. The cooler 710 has two cooling holes 711 therein. The cooling holes 710 are parallel to the conveying direction of the product tape PD, and the cooling holes 711 are symmetrically provided on the cooler 710. The cooling holes 712 are filled with a cooling liquid or gas to cool the product tape PD. These structures of the tablet cooling and leveling device are also the same as those of the first embodiment.

Differently, the cooling surface 712 of the cooler 710, i.e. the surface against which the product strip PD is attached, is a plane. The upper surface of the tray 720 is also a flat surface.

In this embodiment, the avoidance portion 721 of the support plate 720 is a plurality of avoidance holes, and the positions and the sizes of the avoidance holes and the medicine bubbles are matched. And the tray 720 moves up and down, i.e., toward and away from the product tape PD.

In this embodiment, the tablet cooling and leveling device is not continuous, but is performed from one region to another, as compared to the first embodiment. The size of this region may be determined according to the final cut product size or an integer multiple of the final product.

The product tape PD conveys a medicine sheet to the position of the medicine sheet cooling and leveling device 700 by the product conveying device 800, and then stops conveying. The tray 720 moves upward, i.e., moves closer to the product tape, the medicine bubbles are inserted into the escape holes 721, and the tray 720 is attached to one side of the product tape and is pressed against both sides of the product tape PD in cooperation with the cooler 710.

After the cooling and shaping process is completed by the drug plate cooling and flattening device 700, the supporting plate 720 moves downwards, namely moves away from the product belt, and drug bubbles leave the avoiding holes 721. The product conveyor 800 is started to convey the product belt PD rightward, and the next position of the product belt PD moves between the pallet 720 and the cooler 710. The cooling and shaping are performed repeatedly.

It should be noted that, in this document, relational terms such as front side, rear side, upper, lower, horizontal, etc. are merely used for drawings in the present embodiment, so that the relative positional relationship is conveniently described, and the relative positional relationship may be changed from different angles, which does not exert a complete limiting effect. The above specific embodiments only describe the main features and innovative points of the present solution. It will be appreciated by those skilled in the art that the present solution is not limited by the above embodiments. Various changes and modifications can be made in the present solution without departing from the innovative points and the protective scope, which shall fall within the scope of the invention as claimed. The scope of the protection sought is as set forth in the claims below and equivalents thereof.

Claims (8)

1. An aluminum-plastic blister machine, characterized in that it comprises a heat sealing device, an air blowing device and a medicine plate cooling and leveling device of the aluminum-plastic blister machine; The heat sealing device heat-seals the flat plastic with the medicine particles added and the composite aluminum film together to form a product strip; The air blowing device blows air to cool the heat-sealed product; The medicine plate cooling and leveling device further cools and shapes the product belt after blowing; Wherein, the medicine plate cooling and leveling device of the aluminum-plastic blister machine comprises: a cooler and a support plate; The cooler and the support plate are respectively arranged on the upper and lower sides of the product belt; The cooler has at least one cooling hole; cooling liquid or gas is passed through the cooling hole; the support plate has an avoidance portion; The medicine bubble enters the avoidance portion, the support plate is pressed on one side of the product belt, and the cooler is pressed on the other side of the product belt; The surface of the cooler that contacts the product belt is arc-shaped; The surface of the support plate that contacts the product belt is also arc-shaped; The arc shapes of the cooler and the support plate match each other. 2. The aluminum-plastic blister machine according to claim 1, characterized in that: the avoidance portion is strip-shaped. 3. The aluminum-plastic blister machine according to claim 2, characterized in that: the support plate and the cooler are always pressed on both sides of the product belt; The product belt continues to pass between the support plate and the cooler, and the medicine bubble passes through the strip-shaped avoidance portion. 4. The aluminum-plastic blister machine according to claim 1, characterized in that: Wherein, the avoidance part is a plurality of avoidance holes; and the avoidance holes match the position and size of the medicine bubble. 5. The aluminum-plastic blister machine according to claim 4, characterized in that: wherein the pallet moves towards and away from the product belt; The support plate moves close to the product belt, the medicine bubble is embedded in the avoidance hole, and the support plate is attached to one side of the product belt; The support plate moves away from the product belt, the medicine bubble leaves the avoidance hole, the product belt moves, and the next position of the product belt moves between the support plate and the cooler. 6. The aluminum-plastic blister machine according to claim 1, characterized in that: the cooling holes are parallel to the conveying direction of the product belt. 7. The aluminum-plastic blister machine according to any one of claims 1 to 6, characterized in that it also includes a flat plastic conveying device, a composite aluminum film conveying device, a product conveying device, a bubble blowing device, a drug particle adding device and a product cutting device; The flat plastic conveying device and the product conveying device sequentially convey the flat plastic to the bubbling device, the medicine particle adding device, the heat sealing device, the air blowing device, the medicine plate cooling and leveling device, and the product cutting device; The bubble blowing device blows out medicine bubbles on the flat plastic plate; The medicine particle adding device adds medicine particles into the medicine bubble; The composite aluminum film conveying device and the product conveying device sequentially convey the composite aluminum film to the heat sealing device, the air blowing device, the medicine plate cooling and leveling device, and the product cutting device; The product cutting device cuts the product strip after cooling and shaping. 8. The aluminum-plastic blister machine according to claim 7, characterized in that it also includes a batch marking device; the batch marking device is arranged between the blowing device and the cooling and flattening device to perform batch marking on the product belt; The flat plastic conveying device, the composite aluminum film conveying device and the product conveying device adopt conveying rollers for conveying.