JPS6160420A - Carton assembling device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to the field of packaging technology that utilizes a rotary transfer mechanism. Specifically, the present invention utilizes a rotary transfer mechanism to transfer flat-folded cartons to
This invention relates to a carton assembly device that is capable of transferring and opening at high speed.

(Prior Art) In the packaging industry, from a competitive and economic standpoint,
It is becoming increasingly important to mechanize many tasks.
And it has become necessary. In particular, it is necessary to mechanize the work so that it can be carried out quickly and reliably.

The carton assembly device according to the present invention uses a rotary transfer mechanism to sequentially transfer flattened cartons to a temporally and spatially synchronized conveyor device, and transports tons of cartons in the direction of the parentheses. , a device that can be opened into a cylindrical shape for use in packaging.

In the past, various types of rotary transfer mechanisms have been devised and used for machines that have little to do with packaging. These rotary transfer mechanisms, due to their design,
It cannot be used for anything other than specific packaging. Additionally, the drives used in conventional rotary transfer equipment are inherently prone to failure or have limited functionality, making them unsuitable for high-speed carton assembly operations. do not have.

For example, some conventional machines utilize rotary transfer mechanisms to transport coupons or other light items into position.

Although some systems use multiple linear vacuum systems for carton assembly, these vacuum systems have an inherently low speed for assembling cartons. Further, some devices use a chain drive device together with a transfer mechanism, but the chain drive device is difficult to adjust and maintain, and is structurally difficult to handle.

(Problems to be Solved by the Invention) The carton assembly apparatus according to the present invention can overcome the problems, difficulties and drawbacks of the conventional apparatus described above. In addition, the carton assembly device according to the present invention has wide applicability, can be used for various types of packaging, is highly reliable, and has a high operating speed.

In summary, it is an object of the present invention to move flat-folded cartons from their storage position onto a conveyor with partitions.
An object of the present invention is to provide a carton assembly device suitable for synchronous and high-speed transport.

This assembly device can be synchronized both spatially and temporally, so that cartons can be assembled or opened by sliding contact with a conveyor with partitions and used for packaging. Placed on the conveyor so that it can.

(Means for Solving the Problems) A carton assembly device according to the present invention includes one fixed gear,
The rotary transfer mechanism 11 has a plurality of planetary gear trains that rotate in mesh with the rotary transfer mechanism.

The planetary gear train rotates a vacuum transfer device that picks up and releases each carton, bringing its radial tip to at least two predetermined apex positions. There is. A vacuum control device cooperating with the vacuum transfer device acts in particular on each of its moving tips.

A storage device is provided at a first apex position for removably storing and dispensing a number of flattened cartons, each carton being capable of being removed by a vacuum displacement device. A conveyor device having an upwardly extending partition plate.

It is provided at a second apex position of the moving tip of the vacuum transfer device. The partition plates are arranged at equal intervals with a constant distance based on the dimensions of a predetermined carton.

(Function) The conveyor device is synchronized with the vacuum transfer device and the vacuum control device. The folded cartons are transferred in a predetermined direction by the vacuum transfer device, and when they reach the second apex position, they come into contact with the front surface of the partition plate of the conveyor device that is sequentially moving.

The carton is opened, for example into a cylindrical shape, by this sliding engagement with the partition plate, while being held by the vacuum action of the vacuum transfer device.

When the vacuum transfer device leaves the second apex position,
The vacuum control device releases the vacuum applied to the transfer device and the opened carton is moved onto a conveyor for subsequent packaging operations, e.g. filling and sealing. It is placed between two adjacent partition plates in the device and transported.

The vacuum transfer device continues its rotational movement, and
, removes another folded carton from the storage device. In this way, the flattened cartons are fed one after another and are opened and fed in standing position onto the moving conveyor device. Ru.

According to a further aspect of the invention, a stop device is provided.

Stopping the operation of the vacuum transfer device or conveyor device when there are no cartons stored in the storage device or if the vacuum transfer device does not have a carton in place during its rotation. This is so that you can do it.

In addition, by adding adjustment devices, power devices, etc.
The use and functionality of the carton assembly device according to the invention can be further improved.

BRIEF DESCRIPTION OF THE DRAWINGS In order that the above-mentioned advantages and other features of the invention may be better understood, they will be explained in detail below with reference to the accompanying drawings, in which: FIG.

FIG. 1 shows a carton assembly apparatus according to the present invention.

This device includes a rotary transfer mechanism (10), a carton storage device (13), and a conveyor device (14).

The rotary transfer mechanism (10) includes a rotary head, that is, a rotating plate (16), a fixed gear (15), and three planetary gear trains (17). Each planetary gear train (17)
consists of an inner gear (18), which is an idle gear, and an outer drive gear (19), and rotates while meshing with a fixed gear (gear 5). The inner gear (18) and the outer gear (19) are
They are attached to the rotary plate (16) with respectively pivoted shafts (21) and (22).

The configuration and operation of the rotation transfer mechanism (10) will be explained in more detail with reference to FIG. 3.

For example, the drive shaft (20) connected to the drive device (29), which is a motor, is oriented horizontally and has a fixed gear (15).
) and the rotating plate (16) at right angles.

The rotating plate (16) rotates together with this drive shaft (20).

The fixed gear (15) is pivoted to the shaft (20) and does not rotate with it.

The shaft (22) is connected to the outer gear (19) and rotates therewith.

The shaft (22) is hollow, communicates with the vacuum generator, and has a vacuum cup shaft (22) at each end with a vacuum head or rubber cup (24) perpendicular thereto.
3) is installed. These hollow shafts (22)
(23) and the cup (24) constitute a vacuum transfer device (11).

The vacuum control device (12) of the carton assembly device according to the invention is adapted to act directly on the vacuum transfer device (11).

As shown in FIG. 3, a vacuum is constructed as shown in FIG. The control device is known, and usually one disk rotates together with the drive shaft (20),
The other coupling disc is designed not to rotate.

A conduit or hose (28) is in direct communication with the vacuum generator, and the conduit (27) is in communication with a hollow member (26) that communicates with the shaft (22) of the vacuum transfer device (11).

In this way, when the drive shaft (20) and the rotary plate (16) are driven by the drive device (29), the communication holes in the mutually rotating rain disk (25) communicate with each other, and the hollow through the shaft (22) of the cup or head (24)
and a vacuum generator, or release the vacuum applied to the cup or head (24).

As mentioned above, when the rotating plate (16) rotates, the planetary gear train (17) rotates relative to the fixed gear (15).

The movement path of the vacuum transfer device (11) that rotates in conjunction with the outer gear (19) is determined in advance by the ratio of the number of teeth of the outer gear (19) to the fixed gear (15). This tooth ratio is set to 3:1 in FIGS. 1, 2, and 4. Therefore, in the illustrated embodiment of the carton assembly device, the vacuum transfer device (11) comprises three
Take the position of each vertex.

FIG. 2 shows the movement path of the vacuum transfer device (11) when the gear ratio is 3=1.
) and (C), vacuum heads (24) are located respectively.

In addition, in FIG. 2, the relative rotational motion of the inner gear (18) and outer gear (19) with respect to the fixed gear (15) when the one-rotation transfer mechanism (10) rotates clockwise is shown in a diagram. It shows. In particular, the line (30) shows the path of movement of the vacuum head (24).

To achieve the objectives of the invention, it is sufficient that the carton assembly device is capable of assuming two apex positions.

By arranging the carton storage device in the first apex position, the vacuum head (24) can store a number of cartons folded flat and stored when a vacuum condition is created by the action of the vacuum control device (12). One carton (37) can be easily taken out from (35). The flattened carton (35) is removably stored in a magazine (36) with a beveled edge.

In order to effectively accomplish carton assembly, a synchronous conveyor device (14) is combined with a rotary transfer mechanism (10
), ie at the second apex position of the travel path of the vacuum transfer device (11).

The conveyor device (14) comprises an endless chain or flexible member (33) fitted with an outwardly extending vertical partition (31). The chain (33) moves over rollers (34) during operation of the carton assembly machine.

In this case, it is preferable to use the same drive device (29) as the rotary transfer mechanism (10). Thereby, temporal synchronization can be easily obtained.

Additionally, for control purposes, a single power unit for the rotary transfer mechanism and conveyor system ensures that both mechanisms and devices operate simultaneously.
and can be stopped. In this way, once time synchronization is achieved via a gear mechanism or the like, the synchronization state continues thereafter.

The distance between adjacent partition plates (31) is determined based on the dimensions of a predetermined carton, as shown in FIGS. 1 and 4.

In FIG. 1, two opposing partition plates (31) are shown for accommodating and transporting one assembled carton (38). Since they are very close to each other, it is also possible to share them with one partition plate (31) and store one assembled carton before and after the partition plate.

As mentioned above, each partition plate (31) is attached to the chain (33) at a spacing that allows the carton to be opened properly and to accommodate the assembled carton (38). However, an adjustable divider attachment device (32) may be provided to allow cartons of various sizes to be assembled.

FIG. 4 shows the position to be taken of a flat-folded carton (37) transported by at least one vacuum head (24) with respect to the front side of the partition plate (31) of the conveyor device (14) moving forward. , and their temporal synchronization.

As illustrated, the series of steps (1)...(7)
, the negative side of the carton (37) is connected to the vacuum head (
24) and is held thereby, the crease portion in the direction of rotation when rotated by the outer gear (19) comes into sliding contact with the front surface of the partition plate (31).

After the carton has been assembled into an intermediate shape as shown by reference numeral (39) in the figure, the folded portion moves downward while slidingly contacting the partition plate (37), and at its lower end, the fold part moves downward while slidingly contacting the partition plate (37). 37) and the conveyor device (14).

Next, when the carton is assembled into a cylindrical shape as indicated by reference numeral (38) in the figure, the vacuum control device releases the vacuum between the vacuum head (24) and the carton.

In this way, the assembled cartons are moved while being placed between adjacent partition plates (31) for the next packaging operation.

The vacuum head (24) moves upwards and the storage device (1)
3) Engage with another flat folded carton inside.

Although the present invention can be utilized for a variety of packaging or for transporting and arranging articles, when used as a carton assembly device, the unique configuration described above allows multiple shaking devices to be It is also necessary to synchronize with space.

Depending on the dimensions of the particular flat-folded carton being used, the inner gears should be sized appropriately to provide adequate clearance, and the dividers should be sized to provide adequate sliding contact. It is necessary to set the height to an appropriate level.

Further, a disc type device having a communication port that can be adjusted by mutual rotation can be used for adjusting the vacuum control device.

Additionally, a remote vacuum timing device utilizing a solenoid valve mechanism may be used in conjunction with a limit switch to actuate the solenoid valve.

According to the present invention, the main body of the carton assembly device is provided with a rotary transfer mechanism, a vacuum transfer device, and a vacuum control device, so that the storage device can be separated, for example, for synchronization with a conveyor device with a partition plate. It can also be installed on a frame or stand. In this case, a remote synchronization device using known technology such as a photovoltaic cell must be used.6 However, it is necessary to suitably mount each of the above-mentioned elements in a single framework structure and to use a single power unit. It is preferable to use it because it provides higher reliability.

With a single power plant, the synchronization of each element can be accomplished by a mechanical device using a chain gear drive, gear drive, or other known drive system to provide a reliable connection gutter groove. can.

Further, according to the present invention, the number of apex positions of the vacuum transfer device is increased by increasing the number of planetary gear trains consisting of inner gears and outer gears, and changing the ratio of the fixed gears to the outer gears. can be increased.

This allows the feeding speed of the carton assembly device to be increased or the second storage device to be placed in another apex position.

A molten material supply device may be provided.

Furthermore, it is also possible to use the carton assembly device according to the invention in combination with an object-absent deactivation device, a stop device, or a counter device.

The present invention is not limited to only the matters disclosed by the above-described embodiments, and various modifications and changes can be made.

[Brief explanation of the drawing]

FIG. 1 is a side view schematically showing a carton assembly apparatus according to the present invention. FIG. 2 shows the movement path of the vacuum transfer device according to the present invention, which is provided in a rotary transfer mechanism having three sets of planetary gear trains that rotate in mesh with fixed gears, and the geometry showing the outline of each apex position. It is a scientific diagram. FIG. 3 shows a rotary transfer mechanism, a vacuum transfer device, and a carton storage device, and is a plan view of a part of the carton assembly device of FIG. 1, viewed from above. FIG. 4 is a time-varying geometric diagram showing the opening process of a flattened carton at the second apex position where it comes into sliding contact with the partition plate of the synchronous conveyor device. (1)...(7) Stages (10) Rotary transfer mechanism (11) Vacuum transfer device (12) Vacuum control device (13) Carton storage device (14) Conveyor device (15) Fixed gear (16) Rotation Plate (17) Planetary gear train (18) Inner gear (19) Outer gear
(20) Drive shaft (21) (22) Axis
(23) Vacuum cup (24) Vacuum head (
25) Circle plate (26) Hollow member (27) Conductor
Pipe (28) Hose (29) Drive device (30
) wire (31) partition plate (32) partition plate mounting bag fi (33) chain (34) roller
(35) Carton (36) Magazine (
37) (3g) (39) Carton (A) (B) (C
) Vertex position

Claims (9)

[Claims] (1) A carton assembly device that transports a flattened carton and opens it into a cylindrical shape so that it can be used for packaging, comprising: (a) a fixed gear and a plurality of gears that rotate while meshing with the fixed gear; (b) a rotary transfer mechanism having a planetary gear train; (b) rotates in cooperation with the rotary transfer mechanism and, apart from the rotational movement, rotates so as to assume at least two apex positions protruding outward; , and a vacuum transfer device that picks up and releases one carton; (c) a vacuum control device that operates at the apex position of the vacuum transfer device; (d) one of the apex positions; (e) a storage device disposed at a first apex position for removably storing a flattened carton; and (e) an outwardly extending partition plate based on a predetermined carton dimension. are arranged at a certain distance, and when the vacuum transfer device approaches the other apex position, that is, the second apex position, the two adjacent partition plates take a predetermined position. , a conveyor device synchronized with the rotary transfer mechanism, the rotary transfer mechanism cooperating with the vacuum control device acting on the vacuum transfer device to transport the storage at the first apex position. sequentially removing one flat-folded carton from the device and, in the second position, bringing the cartons into sliding contact with the partition plate extending outwardly of the conveyor device. A carton assembly device that opens into a cylindrical shape. (2) Each of the planetary gear trains consists of an inner idle gear and an outer drive gear, the inner gear rotates in mesh with the fixed gear, and the outer gear meshes with the inner gear to rotate. A carton assembly device according to claim 1, characterized in that it rotates and is considerably smaller than the stationary gear. (3) The carton assembly apparatus according to claim (1), wherein the planetary gear train is rotatably attached to a rotary plate that rotates concentrically with the fixed gear. (4) The carton assembly apparatus according to claim (2), wherein the vacuum transfer device is adapted to rotate together with each outer gear of the planetary gear train. (5) The planetary gear train is rotatably attached to a rotary plate that rotates concentrically with the fixed gear, and the outer gear of the planetary gear train is supported by a bearing and maintains a vacuum state. The carton assembly device according to claim 4, wherein the carton assembly device is rotatably attached to the rotary plate by a hollow shaft that can be released. (6) The vacuum transfer device comprises at least one vacuum head extending outwardly from the hollow shaft for direct connection with the cartons to be assembled. The carton assembly device described in item (5). (7) The conveyor device is made of a flexible material,
and at least one endless member having a constant length, the member being provided with a series of holes for removably attaching the partition plate. A carton assembly device according to scope item (1). (8) The carton assembly apparatus according to claim (1), further comprising a power device that drives the rotary transfer mechanism and the conveyor device in synchronization. (9) Claims characterized in that the vacuum transfer device includes a stop device configured to stop the operation of the rotary transfer mechanism and the conveyor device if a carton is not removed from the storage device. The carton assembly device according to item (1).