JPH01297235A - Apparatus for automatically finishing mount box - Google Patents

Abstract

PURPOSE:To prevent the generation of wrinkles or scratch on a finished surface, by mounting a lift means for pushing down a press plate to the pressure receiving surface formed by the roller supported by a guide member. CONSTITUTION:The box passing the fourth sensor S4 is placed on the successively molding rollers of a feed and pressure-receiving apparatus 30 and, when the box advances to the pressing position of a press plate 40 standing by at the rising position of a press part, said box is stopped by the second stopper 62 and the fifth sensor S5 is turned ON. The air cylinder 52 of a lift means starts to fall on the basis of the sensor and, at the same time, a timer is started and the press plate 40 falls within the predetermined time up to time-out by the cylinder 52 to be inserted in the stopped box and presses the bottom part of said box but the under surface of the bottom part of the box is in contact with the upper surfaces of the successively moving rollers 34 and each of the rollers 34 is coated with an elastic material having flexibility and a low friction coefficient such as urethane rubber.

Description

[Detailed Description of the Invention] [Industrial Field of Application] This invention applies pressing force to the surface of the box immediately after a decorative cover is pasted onto the fabric of the box using a wrapping device, thereby applying pressure to the fabric of the cover. This invention relates to a finishing device for perfecting the bonded state.

[Prior art and its drawbacks] If the cover is simply attached to the fabric of the box using a wrapping device, the residual stress in the cover will cause bulges, especially at the edges of the box, which will spoil the appearance of the box and reduce the product value. It is necessary to eliminate such incomplete adhesion of the cover, as it causes deterioration.

To ensure perfect adhesion, it is best to press the cover against the fabric immediately after wrapping and before the glue hardens, but due to the unique shape of the box, it is not possible to automatically press the box as it is ejected from the wrapping device. Since it is difficult to fit the box into a mold, press it, and then automatically remove it from the mold again, conventionally the surface of the box was rubbed manually with gloves to make the cover adhere to the fabric. However, this method cannot keep up with the production speed of the wrapping device (45 pieces/sec), and therefore has problems in terms of productivity, reliability, labor cost, etc.

Finishing by manually fitting the wrapped box into a press mold, pressing the bottom and sides of the box with a press plate attached to the end of a rod such as an air cylinder, and then manually removing the box from the mold. Finishing devices have been proposed that move a rotatable press roller onto a pressure receiving plate instead of pressing with a press plate, but in both cases, fitting and removing the box to the mold is done manually. The finishing speed is slower than the output speed of the lapping device, full automation is impossible, labor costs are high, and - in devices that use moving pressure rollers, it is difficult to increase the moving speed to improve productivity. , there is a risk that concentrated stress will be applied to the cover, causing wrinkles and scratches on the finished surface, so there is a limit to productivity improvement.

[Technical department trying to solve the problem! J! ] In view of the above points, this invention provides automatic finishing of pasted boxes that enables complete automation and high-speed finishing commensurate with the output speed of the wrapping device, and also prevents the occurrence of wrinkles or scratches on the finished surface. The aim is to provide equipment.

[Means for Solving the Problems 1] In order to solve the above-mentioned problems, the automatic pasting box finishing device according to the present invention is provided with: A number of rollers are rotatably held between a pair of endless rotating members that are rotated around each other, and the rollers in the upper part of the endless rotating member are parallel to the box feeding surface after wrapping. A conveying and pressure receiving device is configured by providing a guide member that moves on a surface, and connecting a rotational drive means to one of the rotating shafts. Thirdly, the box transported by the conveying and pressure receiving device is stopped at the pressure position by the pressure plate, and the pressure plate is stopped at the pressurizing position when the pressure is finished. The present invention is characterized in that it includes a stopping means for canceling the stoppage when the stoppage is stopped.

[Operation] When a pasting box formed by pasting a cover onto a fabric by a wrapping device is sent upward onto a roller surface supported by a constantly rotating endless rotating member of a conveying and pressure-receiving device in this automatic finishing device. , the pasted box is moved by the conveying and pressure receiving device, and is stopped by the stopping means at the lifting/lowering position of the pressure platen.

Even when the pasting box is stopped, the endless rotating member continues to rotate.

When the stopping means stops the pasting box, the elevating means lowers the pressure plate. As a result, the pressure plate fits into the stopped box and presses the bottom of the box against the roller.

Since each roller is rotatably supported horizontally by an endless rotating member, the roller rotates and then moves relative to the box to press the bottom of the box against the pressure plate. Since the distance between the rollers is smaller than the bottom surface of the box, the entire surface of the bottom of the box is pressed in sections by a small amount of rotational movement of the endless rotating member, and the incomplete adhesion of the cover is completed.

After the press plate has been pressed for a certain period of time, the press plate is raised and returned again by the elevating means, and the box is left on the moving roller surface. As the pressure plate rises, the stop means releases the stop of the box, and the box is carried out rearward by the conveying and pressure receiving device.

By sequentially transporting the boxes in synchronization with the stopping and release of the stopping means, it is possible to automatically and continuously finish a large number of boxes immediately after wrapping.

[Example of this invention] Next, this invention will be explained based on the drawings.

In the device of this invention, the pasted boxes after wrapping may be manually fed into the conveying/pressure receiving device.The illustrated embodiment has a mechanism that automatically controls and feeds pasted boxes after wrapping. This is the case when

As shown in FIG. 1, the automatic box finishing device according to the present invention roughly refers to the pasting of a pasted box PB whose cover has been covered and pasted onto the box fabric by a wrapping device (not shown). The feeding control section A feeds one piece in the direction of the press section B, which is the main part, and the pressure plate P is raised and lowered into the pasting box to press the pasting box against the pressure-receiving surface at the bottom. It consists of a press part B, and a stop part C that stops the box fed by the feed control part A at the lifting position of the press plate of the press part and releases the stop of the box after the press plate has been raised. There is.

Connected to the front part of the feed control unit A is a carry-in unit I, which is comprised of a belt conveyor, a roller conveyor, etc., and which carries in the pasted boxes immediately after wrapping by the wrapping device.
Connected to the rear part of the stop section C is a carry-out section 0, which is comprised of a belt conveyor, roller conveyor, or the like, and which moves the boxes that have been finished by this device to a collection location.

Next, each component A to C of the present invention will be explained in detail based on the drawings from FIG. 2 onwards.

The feeding control section A includes a conveying means 10 for loading a box moving on the carrying-in section I, which is constantly driven, and moving it toward the press section, and there is already one box in the press section, which will be described later. In this case, a conveyance control means 20 is provided to prevent the conveyance means from feeding the articles in an overlapping manner.

The conveying means 10 is constructed by passing a belt 13 around a pulley 12 fixed on a rotating shaft 11 attached to the frame 1, or by fixing rollers on each of a plurality of rotating shafts.
The motor is configured to apply rotational force to the motor via a reduction gear.

The conveyance control means 20 can have various configurations depending on the control method. In the illustrated example, the left and right components of the conveyance means 10 are attached to the lower side of the conveyance means 10 via a mounting plate 21 fixed to the frame 1. An air cylinder 22 having a solenoid valve (not shown) is fixed between the pair of belts 13, and a guide rod 23 is supported by a bearing 24 so as to be able to move up and down. 25 is fixed, and at all times,
The platform 25 is lowered from the conveying surface of the belt 13 to transmit the conveying force of the conveying means to the box, or the solenoid valve is operated by a control signal from a control circuit to be described later, as shown in FIG. By raising the table 25 above the conveying surface, the conveying force is cut off.

Instead of using the cylinder 22 and the stand 25 described above, the conveyance control means 20 uses a conveyance means such as a rotating shaft 11 of a belt or a group of rollers and a motor 14 for rotating it, as shown in FIG. An electromagnetic clutch 26 may be provided between the two, and the electromagnetic clutch may be connected or disconnected by a control signal from a control circuit to be described later.

The above-mentioned transport means 10 and transport control means 20 are
In order to make it possible to reliably feed the continuously brought in boxes one by one to the conveyance and pressure receiving section, two sets of conveyance means and conveyance control means are provided in the front and rear, respectively, 10f, as shown in the example shown in the figure.
, 2Of, 10r, and 2Or.

The front conveyance control means 2Of allows one box to be controlled by the front conveyance control means 1.
When it is detected that 0f has been reached, if there is no previous box on the rear transport means, the transport is further advanced, and if there is a previous box on the rear transport means, transport is stopped until the previous box is gone. Further, when the rear conveyance control means 20r detects that a box is carried onto the rear conveyance means, if there is no box between the rear conveyance means and the press section, the rear conveyance control means 20r directs the detected box further toward the press section. If there is a box between the top of the rear conveyance means and the press section, photographing and feeding is stopped until the press section detects the rise of the press plate.

The feed control section A also has a press section where boxes whose feeding is controlled by the transfer control means 2Of are pushed by the boxes successively carried in from the carry-in section I above the front part of the rear conveyance means 10r. A first stopper 27 is provided to ensure that the vehicle does not move forward.

This stopper is located at the center of a rotating shaft 27a that extends above the front part of the rear conveyance means 2Or in a direction perpendicular to the conveyance direction.
A locking piece 27b protruding perpendicularly to the rotating shaft is fixed, and a rotary solenoid (not shown) or a plunger of the solenoid is connected to the base end of the rotating shaft 27a via a lever.

The locking piece 27b is normally located at the top as shown by the chain line in FIG. 1, opening the conveying surface, and the solenoid is operated based on a control signal from a control circuit, which will be described later. The stop piece 27b is rotated downward as shown by the solid line in the figure to close the conveying surface.

The press section B is configured to move in the conveying direction and press against a pressure receiving surface formed by a conveying/pressure receiving device 30 having a large number of rotatable rollers and rollers at predetermined positions of the conveying/pressure receiving device. The pressure plate 40 is composed of a pressure plate 40, and a lifting means 50 for raising and lowering the pressure plate with respect to the pressure receiving surface.

The conveyance and pressure receiving device 30 has a pair of front and rear rotating shafts 31.3.
a pair of endless rotating members 32.3, such as chains, which are hung between each end of the rotating shaft so as to rotate in conjunction with the rotating shaft;
2, a large number of support shafts 33 are horizontally suspended, and a roller 34 is rotatably held on each support shaft. A guide member 35 is provided to move the means 10 on a plane parallel to the conveyance plane, and a rotational drive means such as a motor and a speed reducer is connected to one of the rotating shafts 31.

The guide member 35 stands up from the frame 1 and has an upper surface on its upper end that slides near both ends of the rotary shaft 31. In order to reduce as much as possible the friction of the zero-rotation shaft 31 against the guide member 35, rollers 36 with bearings near both ends of
It is desirable that the rollers are rotatably provided and that the rollers are moved around the upper surface of the guide member 35. In this way, each roller 34 in the upper portion of the pair of endless rotating members 32 all moves on a horizontal plane, and The upper surface of forms the pressure receiving surface.

Since the pressure plate 40 is a plywood wooden mold, it has the required strength, is easy to process to obtain a smooth surface, is lightweight, and has low friction against the pasting box. It has the advantage that the corners become rounded with use, making it easier to fit into the box.

The pressure platen 40 is supported by a lifting means 50 attached to the frame 1 via a support frame 51. Lifting means 5
0 is an air cylinder 52 fixed to the center of the support frame 51
, a guide rod 54 held on both sides of the cylinder via bearings 53 so as to be freely raised and lowered, and a solenoid valve (not shown) that supplies pressurized air to the cylinder 52 in a controlled manner. The pressure plate 40 is attached to the lower ends of the pitson rod 55 of the cylinder 2 and the guide rod 54 via an attachment plate 41.

The shape and area of the bottom of the pressure platen 40 needs to correspond to the shape and area of the bottom of the pasted box PB to be finished, so the pressure platen is replaceably attached to the mounting plate 41 with bolts and nuts.

If an air cylinder is used as a lifting means, if a motor and threaded rod or other drive body such as a hydraulic cylinder is used, there is a possibility that the product may be contaminated with lubricating oil, pressurized oil, etc. This is because such shortcomings can be eliminated.

The stopping section C stops the box conveyed by the rollers of the conveying/pressure receiving device 30 of the press section at the lifting position of the press plate 40, and also stops the box being pressed by the press section B so that the press plate 40 rises. Sometimes, the box that was previously stopped is released and moved backwards.

A vertical shaft 61 that rotates in conjunction with the left and right sides of the rear roller 34 of the conveying and pressure receiving device 30 is provided, a second stopper 62 is fixed to each horizontal shaft, and the second stopper 62 is fixed to one of the vertical shafts. As shown by the chain line in FIG. 2, the rear roller 34 is
It is configured by connecting a rotating device (not shown) such as a solenoid, a motor, or an air cylinder to rotate the conveyance surface to a stop position substantially perpendicular to the conveyance direction.

The pair of left and right second stoppers 62 are rotated backwards relative to the lifting position of the pressure plate to open and close like a double door, so if the second stoppers are rotated when the pressure plate is detected to be rising, the box starts moving at the same time. , the finishing pitch is advantageously shortened. The second stopper 62 is 1
The unit may also be mounted so that it can be rotated around a horizontal axis.

Conveyance means 10 and conveyance control means 2 of the above-mentioned feed control section A
0, a sequence control section for driving the lifting means 50 of the press section B and the rotary equipment of the stop section C in the required order according to the position of the box to be moved is located at the front part, as shown in FIG. A first sensor Sl detects the front end of the box on the transport means 10f, second and third sensors S2 detect the front end and center of the box on the rear transport means 10r. S3
, a fourth sensor S4 provided between the third sensor and the press section B, a fifth sensor SS that detects the front end of the box that has reached the lifting position of the press plate 40 of the press section B, and a stop section C. a sixth sensor S8 provided behind the rotation range of the second stopper 62; and a sensor S7 operated when the pressure plate 40 is raised by the lifting means 50;
a control circuit that checks the output state of each of the sensors and applies a control O1l signal to the transport control means 20, the first stopper 27, the lifting means 50, and the stop section C when a predetermined condition is satisfied. .

The distance relationship between the above sensors is that when the front end of the box turns the third sensor S3 ON, the first sensor S1 turns OFF,
Furthermore, the arrangement is such that when the front end of the box turns on the fourth sensor S4, the second sensor S2 turns off.

Next, the configuration of such a sequence control section will be explained. The sequence control unit has a method (first method) that performs control such that when a box is carried in from the carry-in section I, it always stops on the rear conveyance means once, regardless of whether or not there is a box carried in first. Depending on whether or not the box that was brought in first is on the rear conveyance means or in the press section, one of two methods is selected: stopping the conveyance, or controlling the conveyance without stopping (the second method). can do.

First, the first method will be explained. This method can be realized by the circuit shown in FIG. That is, the transport control means 2Of, 20r are normally the transport means 10f, respectively.
, the first box P from 0wi entry I driving 10r.
When B is carried in and the sensor S1 is turned on, it is determined by the AND circuit AND1 whether or not the previous box exists on the rear transport means 10r, and if there is not, the front transport control means 1
0f continues to rotate. However, if there is a box on the rear transport means 10r, the sensor S3 is in the ON state, so the AND circuit ANDI outputs an output to the front transport control means 10r.
This operates and the front conveyance means 10
f is stopped and the box carried thereon is stopped.

When the box that has advanced without being stopped moves onto the rear transport means 10r and the second sensor S2 is turned on, the first stopper drive means ST1 is activated and the first stopper 27 is lowered to the transport surface. However, the box is still advanced.

As a result, the third sensor S3 is turned on, and the first stopper hits the rear of the box and stops it.

When the third sensor is turned on, one thing is that the AND circuit AND
2, press part B depending on the output of the fifth sensor S,
It is determined whether or not a box exists in the rear conveyance means 1. If there is a box, the rear conveyance control means 2Or is operated by the output of the AND circuit, and the rear conveyance control means 1. The Or is stopped and the boxes carried on it are stopped. In addition, when there is no box in the press section, the first stopper driving means ST1 is restored by the AND circuit AND3 based on the upper blade of the third sensor S3 and the first stopper 27 is opened.
The box that was stopped on 0r is sent toward the push section B.

The box advancing in this manner turns on the fourth sensor S4.

Normally, the second sensor S2 is not ON at 08:00 of this fourth sensor, but if the front and rear boxes are brought in in close contact with each other, the sensor S2. It is possible that S4 is turned ON at the same time. The AND circuit A N D a outputs an output in such a case, and in order to close the first stopper 27, the box that is in close contact with the box sent to the press section is closed to the first stopper 27.
It is stopped by a stopper. Therefore, it is possible to prevent a plurality of boxes from being sent into the press section at once and the boxes that are in close contact with each other being crushed by the press plate.

When the fourth sensor S4 turns ON, the second sensor turns OFF.
In the F state, the first stone bar cannot be closed.

Then, the box that has passed the fourth sensor is
The plants are grown on 130 sequentially moving rollers. This conveyance/pressure receiving device 30 is constantly rotating, and the boxes placed on the rollers are transferred to the press plate 4, which is waiting at the elevated position of the press section.
0 pressure position! When the vehicle advances to the point where it is stopped, it is stopped by the second stopper 62 located at the normal stop position, and the fifth sensor S
5 is turned on. Based on the output of this sensor, the electromagnetic valve EV of the pressurized heat elevating means 50 is switched, and the air cylinder 52 of the elevating means starts descending. At the same time, timer T
is started. Then, within a predetermined period of time until the timer times out, the pressure plate 40 is lowered by the cylinder 52 and inserted into the stopped box, and pressurizes the bottom of the box. Moving roller 3
It is in contact with the top surface of 4. Therefore, due to the pressing force from the pressure plate, the bottom of the box is pressed against the pressure receiving surface formed by the top surface of the rollers, and each roller is pressed against the bottom surface of the box and moves while rotating.

In this case, since the roller 34 is covered with an elastic material such as urethane rubber that is flexible and has a low friction coefficient, wrinkles can be removed from the bottom cover while the box is stopped by the second stopper 62. Also, when receiving pressure from the pressure plate, no large reaction force is applied to the bottom of the box, so there is no damage to the bottom of the box.Furthermore, the rollers do not damage the bottom of the box. Since about four or more rollers are in contact with the rollers at the same time, a slight movement of the rollers presses the entire bottom of the box in the area divided by each roller.
Therefore, due to the short-time pressing of the pressing plate and the small pressing force of the pressing plate, enough pressing force can be obtained on the bottom surface of the box to completely fix the incomplete cover sticking by the wrapping device.

Since the pressing force is applied by dividing the cover using multiple rollers, unlike when one roller moves over the entire surface and presses it, the amount of spread of the cover accumulates, causing wrinkles on the surface. I have nothing to do.

In this way, the bottom cover of the box carried in from the wrapping device is completely attached in a short period of time.

The timer T is set to a predetermined time period that is long enough to perform such a complete adhesion operation. Then, the solenoid valve EV of the elevating means 50 is switched again by the time-up output, and the cylinder 52 is raised. When it rises to a predetermined position, the seventh sensor S7 is turned on.

The output of this sensor causes the second stopper driving means ST2, which normally closes the second stopper 62, to move the second stopper 62 backward from the conveyance surface of the conveyance/pressure receiving device 30 and open it. The box that was stopped at the pressure position moves forward again. Second, the rear conveyance control means is activated by the output of the sensor S7 to rotate the rear conveyance means and also open the first stopper 27. Accordingly, the following boxes that have been stopped on the rear transport means are fed into the press section.

Also, the box moved forward by opening the second stopper 62,
It is delivered onto the delivery section 0 by rollers at the rear. and,
The sixth sensor S8 is turned on by the box sent to the unloading section, and when the rear part of the box passes the sixth sensor and turns off, the second stopper 62 is closed again. next,
The second method will be explained. This method can be realized using a circuit configured as shown in FIG.

That is, a box is carried in from the carry-in section I and the first sensor S1
is turned ON, if the third sensor S3 is not ON at that time, that is, if the previous box is not waiting on the rear conveyance means 10r, the carried box is sent to the front via the AND circuit AND. is advanced by the transport means. When the first sensor S is turned on after being carried in from the Wi input section, the third
When the sensor S3 is ON, the output of the AND circuit AND causes the front conveyance control means 2Of to operate the front conveyance means 10.
Stop f and park the box on the front transport means.

If the second sensor S2 is turned on by the box moving forward,
It is determined by the AND circuit AND8 whether or not the memory circuit FF is outputting a set output. The memory circuit FF is composed of a free-lag flop, and when the fourth sensor S4 is turned on,
That is, it is set by the output when it is detected that the box is sent toward the press section from the rear conveyance means 10r, and it is stored that the box is in the press section, and the output of the seventh sensor S7, that is, , cylinder 5 of the lifting means 50
2 or is reset by the output when it is detected that the press plate 40 has been raised after pressing, and it is stored that the box has been sent out from the press section. Then, the second sensor S2 is O
When the memory port #IFF is in the reset state, the first stopper remains open, so that the box is not stopped and is fed by the rear conveying means onto the rollers of the conveying and pressure receiving device. On the other hand, the second sensor S2
is turned on, if the memory circuit FF is in the set state, the AND circuit AND8 outputs the first stopper 27.
is closed. The first stopper is when the seventh sensor S7 is ON.
Since the memory circuit FF is reset by the reset output, it is opened based on the reset output.

The box moving on the rear transport means causes the third sensor S3 to
If the memory circuit FF is in the set state when
The rear conveyance control means 2Or is operated by the AND circuit AND7, and the rear conveyance means 10r is stopped and stands by.

When the rear conveyance control means 20r is restarted again by resetting the memory circuit, and the fourth sensor S4 is turned ON due to the box to be sent, the fourth sensor S4 is turned ON.
N and the memory circuit FF is set.

Furthermore, when the box conveyed on the rollers of the conveyance/pressure receiving device 30 reaches the pressurizing position and is stopped by the second stopper 62, and the fifth sensor S is turned on, the case of the first method is achieved. Similarly, the solenoid valve EV of the lifting means is switched to lower the cylinder so that the pressure plate descends into the stopped box and presses against the roller surface. The action of each roller in this case is the same as in the first method. Then, based on the time up of the timer T started by the output of the fifth sensor, the solenoid valve EV is switched again to raise the cylinder and turn on the seventh sensor S7. As described above, the memory circuit FF is reset based on the output of this sensor. Then, the first stopper 27 and the second stopper 6 are set by the memory circuit glue set output.
2 is released. Accordingly, the boxes waiting on the rear transport means are sent toward the press section, and the pressurized boxes are sent rearward. Then, when the sixth sensor S6 is turned off due to the passage of the rear end of the box, the second stopper 62 is closed again, as in the case of the first method.

[Effects of the present invention] As described above, according to the present invention, it is possible to fully automate the finishing of pasted boxes, and it is also possible to perform high-speed finishing commensurate with the discharge speed of the wrapping device, and moreover, it is possible to avoid wrinkles on the finished surface. It is possible to provide an automatic box finishing device that does not cause scratches or scratches.

[Brief explanation of the drawing]

FIG. 1 is a plan view schematically showing the configuration of a box finishing apparatus according to the present invention, FIG. 2 is a front view showing the specific configuration, and FIG.
The figure is a plan view of the same, Figure 4 is a sectional view of the conveying and pressure receiving device, and Figure 5 is a sectional view of the conveying and pressure receiving device.
FIG. 6 is a schematic diagram showing an example of the pond of the transport control means, FIG. 6 is a circuit diagram showing an example of the configuration of the control device, and FIG. 7 is a circuit diagram showing another example of the control device. A... Feeding control section, B... Pressing section, C... Stopping section, ■... Loading section, O... Carrying out section, 10f, LOr---Transporting means, 2Of, 2Or・...Conveyance control means, 27.First stopper, 30.Conveyance and pressure receiving device, 31.Rotating shaft, 32.Endless rotating member, 33.
...Support shaft, 34...Roller, 40...Pressure plate,
50... Lifting means, 62... Second stopper, S1-S7... Sensor. Patent Applicant Moto Nagai Procedural Form (Method) September 7, 1988 Commissioner of the Japan Patent Office Yoshi 1) Takeshi Moon 1, Indication of the Case 1988 Patent Application No. 128900 2, Box with the name of the invention Automatic finishing device 3, relationship with the case of the person making the amendment Patent applicant name Gen 4 Nagai, agent address 105-6, 3-15-5 Shinbashi, Minato-ku, Tokyo Drawing 7 to be amended, details of the amendment attached Submit an engraving of the street drawings Figures 2 to 4.

Claims (1)

[Scope of Claims] (a) A large number of rollers can be freely rotated between a pair of endless rotating members that are hung between each end of a pair of front and rear rotating shafts so as to rotate in conjunction with the rotating shafts. a guide member is provided for moving the roller in the upper part of the endless rotating member on a plane parallel to a box feeding surface after wrapping, and a rotational drive means is connected to one of the rotating shafts. , constitutes a conveyance and pressure receiving device, (b) includes a lifting means for pushing down a pressure plate against a pressure receiving surface formed by a roller supported by the guide member, and (c) is carried in by the conveyance and pressure receiving device. stopping the pasted box on the pressure-receiving surface at a pressure position by the pressure plate;
An automatic box finishing device comprising a stop means that releases the stop upon completion of pressurization.