JP4299171B2 - Plate member horizontal laminating device - Google Patents

Description

  The present invention relates to a plate-like member horizontal laminating device that piles and laminates the plate-like members when a laminated material is manufactured by superposing a plurality of plate-like members and bonding them with an adhesive.

  Conventionally, this type of laminated lumber is made by laminating (cutting board) or small timber obtained by cutting out raw wood such as imported foreign timber, etc., so that the fiber directions are substantially parallel to each other, and the thickness, width and It is formed as a square or thick plate by laminating and bonding in the length direction. Such laminated lumber is generally more expensive than muk lumber depending on the type of raw wood, but it is beneficial in terms of effective use of resources and is frequently used.

Such a laminated material is, for example, after laminating (plate-like member) sent by a conveyor is coated with an adhesive by a coating device, and further sent to a loading device by a conveyor. Manufactured by stacking lamina up and down. Specifically, the loading device is provided with a casing in which a linear alignment surface is formed, a moving mechanism for moving the casing back and forth toward the conveyor, and a positioning mechanism that can freely move in and out, A rod-shaped holding member that holds a plurality of laminaes to which an adhesive has been applied in advance, and a retracting mechanism that moves the holding members in and out of the alignment surfaces, respectively.
First, the intruding mechanism is operated so that the lowermost holding member protrudes from the alignment surface, and the lamina is disposed on the holding member with the surface coated with the adhesive facing upward. Next, similarly, the second-stage holding member from the bottom protrudes from the alignment surface to arrange the lamina, and this operation is repeated until the uppermost holding member holds the lamina. Then, the laminating mechanism is operated to pull out all the holding members substantially simultaneously, thereby superimposing a plurality of laminae substantially simultaneously. It is disclosed that the laminated lamina is conveyed to a press device and pressed in the horizontal direction and the vertical direction to produce a laminated material (see, for example, Patent Document 1).
JP 2000-317918 A

However, in the apparatus as described above, since a plurality of laminaes (plate members) arranged in the vertical direction are supported by the holding members, when the number of laminated laminae is increased, it is necessary to increase the holding members accordingly. For this reason, not only the apparatus itself becomes large, but also the holding member and parts such as a cylinder for projecting and retracting the same increase.
In addition, in order to arrange the lamina on each holding member in order from the lower stage to the upper stage, a mechanism for raising and lowering the conveyor that conveys the lamina to the loading device and a raising and lowering mechanism for raising and lowering the holding member are necessary. The configuration becomes complicated.
Furthermore, since the lamina is dropped by pulling out the holding member, the lamina rolls up or down due to an impact at the time of dropping.

  The present invention has been made in view of the above circumstances, and even if the number of laminated plate-like members (laminas) is increased, it is possible to cope with this without causing an increase in the number of parts and an increase in the size of the device. It is an object of the present invention to provide a plate-like member horizontal laminating device that is simple and can prevent laminar rolling and displacement due to impact of dropping.

In order to solve the above-mentioned problem, the invention described in claim 1 includes, for example, as shown in FIGS. 1 to 3, a plurality of plate-like members 60 each having an adhesive applied to at least one side surface 60 </ b> A. A conveyor 2 that conveys one after the other from the one end side to the other end side in a state where 60A is set up and spaced apart substantially in parallel;
The stopper 3 is provided on the other end side of the conveyor 2 and stops the leading plate member 60 when the leading plate member 60 conveyed by the conveying conveyor 2 comes into contact with the stopper 3.
The conveying conveyor 2 stacks a plurality of plate-like members 60 in the lateral direction by conveying the plate-like members 60 after the head toward the leading plate-like member 60 stopped by the stopper 3. And

According to the invention described in claim 1, the leading plate-like member 60 is conveyed by the conveyer 2, stops in contact with the stopper 3, and the plate-like members 60 subsequent to the leading are successively conveyed by the conveyer 2. The plurality of plate-like members 60 can be stacked in the lateral direction by being conveyed toward the leading plate-like member 60 that is stopped.
Therefore, when increasing the number of laminated plate-like members 60, it is only necessary to increase the number of plate-like members 60 conveyed by the conveyer 2, so that the number of components and the size of the apparatus are not increased, and the plate-like member 60 is increased. It is possible to easily cope with an increase in the number of stacked members 60.
Moreover, since it is sufficient if the conveyor 2 and the stopper 3 are provided, the configuration of the apparatus is simple. Furthermore, since the plate-like member 60 is conveyed and stacked in the horizontal direction (horizontal direction), The lamina (plate-like member) does not roll or shift due to the impact of dropping.

Invention of Claim 2 is a plate-shaped member horizontal lamination apparatus of Claim 1,
On one end side of the transport conveyor 2, a feeding device 6 for feeding plate members 60 onto the transport conveyor 2 one after another is provided.

  According to the second aspect of the present invention, the plate-like members 60 are successively sent from the one end side of the transfer conveyor 2 onto the transfer conveyor 2 by the feeding device 6, thereby the plate-like members 60 are successively moved by the transfer conveyor 2. In addition, it can be efficiently conveyed at substantially constant intervals toward the stopper 3 side.

Invention of Claim 3 is a plate-shaped member horizontal lamination apparatus of Claim 2,
The feeding device 6 has a carrying-in means 7 for carrying the plate-like member 60 into one end side of the conveyor 2 with the side surface 60A of the plate-like member 60 being laid down,
The plate-like member 60 carried in by the carrying-in means 7 is provided with uprising means 8 for placing the plate-like member 60 on the conveyor 2 with the side surface 60A raised.

  According to the invention described in claim 3, the plate-like member 60 is stably carried in by carrying in the plate-like member 60 to the one end side of the conveyor 2 with the side surface 60 </ b> A lying down by the carrying-in means 7. Since the loaded plate-like member 60 is placed on the transport conveyor 2 with the side surface 60A raised by the upright means 8, the plates that are successively carried in the laid state The member 60 can be raised one after another and placed on the conveyor 2 and conveyed toward the stopper 3 side.

Invention of Claim 4 is a plate-shaped member horizontal lamination apparatus of Claim 3,
The rising means 8 rotates around an axis orthogonal to the transport direction of the transport conveyor 2 and has a plurality of support portions 11a that support the plate member 60 at a predetermined interval in the circumferential direction. A body 11;
The rotary support 11 supports the plate-like member 60 in the state where the side surface 60A is laid down from the lower side by the support portion 11a, and rotates the plate-like member 60 on the side surface 60A. In the state which raised up, it conveys on the said conveyance conveyor 2. It is characterized by the above-mentioned.

  According to the invention described in claim 4, the support member 11 a of the rotary support 11 supports the plate-like member 60 with the side surface 60 </ b> A lying down from below, and then rotates the rotary support 11 toward the conveyor 2. As a result, the plate-like member 60 is transferred onto the conveyor 2 with its side surface 60A upright, so that the plate-like members 60 that are successively loaded in the laid state are raised one after another and conveyed. It can be transferred onto the conveyor 2.

Invention of Claim 5 is a plate-shaped member horizontal lamination apparatus of Claim 4,
The conveyance speed of the conveyor 2 is variable, and the rotation speed of the rotary support 11 is variable.

According to the fifth aspect of the present invention, the plate-like member 60 is erected on the transfer conveyor 2 in a state where the plate-like member 60 is raised by adjusting the transfer speed of the transfer conveyor 2 and the rotation speed of the rotary support 11. be able to.
For example, the rotation support 11 sets a relatively high rotation speed until the plate-like member 60 is supported by the support portion 11a and rotates by a predetermined angle, and thereafter, the rotation speed is set low until the vicinity of the conveyor 2. To do. On the other hand, the conveyance conveyor 2 sets the conveyance speed slower until a predetermined number of plate-like members 60 are put on the rotating support 11, and this conveyance speed is set when the support portion 11 a of the rotation support 11 comes near the conveyance conveyor 2. The plate-like member 60 is smoothly transferred from the rotary support 11 onto the transport conveyor 2 by setting the tangential speed of the rotary support 11 to be substantially the same, so that the plate-like member 60 is raised on the transport conveyor 2. It is possible to put it on with certainty.

Invention of Claim 6 is a plate-shaped member horizontal lamination apparatus as described in any one of Claims 1-5.
On the other end side of the transport conveyor 2, there is provided unloading means 18 for unloading the laminated material formed by laminating plate members 60 in the lateral direction.

  According to the invention described in claim 6, the laminated material formed by laminating the plate-like members 60 on the other end side of the transport conveyor 2 is carried out by the carry-out means 18, thereby assembling the laminated plate-like members 60. The materials can be manufactured one after another.

According to the present invention, it is provided with a transport conveyor that transports plate members one after another from one end side to the other end side, and a stopper that stops the leading plate member that is transported. The plate-like members are conveyed toward the leading plate-like member stopped by the stopper, thereby laminating the plurality of plate-like members in the lateral direction. Therefore, when increasing the number of laminated plate-like members, it is only necessary to increase the number of plate-like members conveyed by the conveyer. Therefore, the number of plate-like members is increased without increasing the number of parts and the size of the apparatus. Can easily cope with an increase in the number of sheets.
In addition, since it only needs to be equipped with a conveyor and stopper, the device configuration is simple, and furthermore, the plate-shaped members are transported and stacked in the horizontal direction (horizontal direction), so that the conventional impact of dropping No lamina rolls or misalignments caused by

Hereinafter, an example of a plate-like member horizontal laminating apparatus according to the present invention will be described with reference to the drawings.
FIG. 1 is a plan view schematically showing a plate-like member horizontal laminating apparatus, and FIG. 2 is a side view thereof. 3 is a side view of the rotary support, FIG. 4A is an exploded perspective view of a laminated material formed by laminating a plurality of plate-like members, and FIG. 4B is a perspective view thereof.

  First, before explaining the plate-like member horizontal laminating apparatus according to the present invention, the laminated material will be explained with reference to FIG. The laminated material 50 is configured by stacking a plurality of plate-like members 60 each having an adhesive surface (side surface) 60A to which an adhesive is applied. The plate-like member 60 is, for example, a plate material obtained by processing red pine, larch, fir, spruce, and other trees into a flat rectangular plate, and has a structure defined by JAS.

  Examples of the adhesive include urea resin-based adhesives, phenol-based adhesives, honeymoon adhesives, and other adhesives used for bonding wood materials. A honeymoon adhesive consists of two types of adhesive constituent materials applied to the mutually opposing surfaces of adjacent members 60. For example, an imide resin is used as the adhesive constituent material, a glyoxal is used as the adhesive constituent material, or a polymer compound having an acetoacetyl group is used as the adhesive constituent material, and an aldehyde compound or polyethyleneimine is used as the adhesive constituent material. Or what has a hydrazine compound as a main component may be used. In short, the specific type of the adhesive is not particularly limited as long as it is an adhesive that rapidly gels or hardens when superposed on each other. Furthermore, in order to improve water resistance and heat resistance, a curing agent that reacts with the adhesive constituent material may be mixed and used in advance.

The plate-like member 60 is obtained, for example, by cutting a rough material stored in a rough material storage area into a predetermined size and then cutting the top surface, the bottom surface, and the left and right side surfaces of the cut rough material. The plate-like member 60 measures the Young's modulus and is classified according to the result.
Then, the plate member of a predetermined grade is conveyed to an adhesive application device, and the adhesive is applied to the side surface of the plate member by this adhesive application device.

Here, when a general adhesive such as a urea resin is used as the adhesive, the upper side of the plate-like member 60 disposed in the middle portion and the lower portion of the laminated material 50 in a state where the plate-like member is laid down. Apply adhesive only to the sides of By overlapping the adjacent members 60, the adhesive is evenly spread on the side surfaces facing each other. On the other hand, when a honeymoon adhesive is used as the adhesive, the adhesive constituent material is applied to the upper side surface of the plate-like member 60 disposed in the middle portion and the lower portion of the laminated material 50, and the laminated material 50. The adhesive constituent material is applied to the lower side surface of the member 60 disposed in the upper part and the middle part.
The plate-like member 60 coated with an adhesive on at least one side by the coating device is conveyed to the plate-like member horizontal laminating device according to the present invention, and a plurality of plate-like members 60 are laminated in the horizontal direction by this device. It is supposed to be.

Hereinafter, the plate-like member horizontal laminating apparatus will be described with reference to FIGS. 1 and 2.
The plate-like member horizontal laminating apparatus 1 includes a transport conveyor 2 and a stopper 3.
The conveyer 2 conveys a plurality of plate-like members 60 having adhesive applied to at least one side surface one after another from one end side to the other end side with the side surfaces thereof being upright and spaced apart from each other in parallel. It is constituted by four first conveyors 4 and four second conveyors 5.

The 1st conveyor 4 is installed so that it may extend toward the other end side from the one end side (right end side in FIG. 1) of the plate-shaped member horizontal lamination apparatus 1, and the four 1st conveyors 4 are spaced apart by predetermined intervals. Are installed parallel to each other.
The first conveyor 4 is configured to wind an endless belt around pulleys provided at both left and right ends, and rotate the belt by rotating one pulley with a driving mechanism (not shown). In FIG. 1 and FIG. 2, the belt is rotated so that its upper side moves from right to left. In addition, the four first conveyors 4 are configured to rotate in synchronization by, for example, attaching each pulley to the same rotation shaft and rotating the rotation shaft by a drive mechanism.
Furthermore, the conveyance speed of the first conveyor 4 is variable. That is, the rotation speed of the belt of the first conveyor 4 is variable. In order to make the conveyance speed of the first conveyor 4 variable, for example, the rotation speed of the belt may be controlled via the rotation shaft and the pulley by controlling the rotation speed of the drive motor constituting the drive mechanism.

The second conveyor 5 extends to the left from the left end portion of the first conveyor 5, and the left end portion of the second conveyor 5 is located in the vicinity of the stopper 3. The four second conveyors 5 are installed in parallel to each other with a predetermined interval.
Further, like the first conveyor 4, the second conveyor 5 rotates the belt by winding an endless belt around pulleys provided at both left and right ends and rotating one pulley by a drive mechanism (not shown). It is something to be made. In FIG. 1 and FIG. 2, the belt is rotated so that its upper side moves from right to left. In addition, the four second conveyors 5 are configured to rotate in synchronization by, for example, attaching each pulley to the same rotation shaft and rotating the rotation shaft by a drive mechanism. Furthermore, the conveyance speed of the second conveyor 5 is variable. That is, the rotation speed of the belt of the second conveyor 5 is variable. In order to make the conveyance speed of the second conveyor 5 variable, for example, the rotation speed of the belt may be controlled via the rotation shaft and the pulley by controlling the rotation speed of the drive motor constituting the drive mechanism.

  Further, the right end portion of the second conveyor 5 and the left end portion of the first conveyor 4 are close to each other and overlap. As a result, the plate-like member 60 conveyed by the first conveyor 4 can be smoothly transferred to the second conveyor 5.

The stopper 3 is provided on the other end side (left end side) of the conveyor 2, and the leading plate member 60 conveyed by the conveying conveyor 2 contacts the leading plate member 60. It stops and is arranged so as to be bridged between the second conveyors 5 and 5 located on both sides.
The stopper 3 is formed of a square bar and is fixed to the frame 1 a of the plate-like member horizontal laminating apparatus 1. Further, the upper and lower heights of the stopper 3 are positioned so that the upper surface thereof is substantially flush with the upper surface of the plate-like member 60 being conveyed. Furthermore, the front end surface 3a of the stopper 3 protrudes on the left end portion of the second conveyor 5, and the leading plate-like member 60 conveyed to the front end surface 3a comes into contact with and stops. .

On one end side (right end side) of the transport conveyor 2, a feeding device 6 that feeds the plate-like members 60 one after another onto the first conveyor 4 constituting the transport conveyor 2 is provided. The feeding device 6 includes a carry-in means 7 and a rising means 8.
The carrying-in means 7 carries in the plate-shaped member 60 to the one end side of the conveyance conveyor (1st conveyor 4) 2 in the state which laid the side surface 60A of this plate-shaped member 60, and is provided with the some conveyance roller 7a. ing.
The conveying rollers 7a are arranged at predetermined intervals along the longitudinal direction of the plate-like member 60, and rotate the plate-like member 60 by supporting the side surface of the plate-like member 60 in the laid state from below. It smoothly carries in to the right end side of one conveyor 4. In addition, a positioning plate 9 is provided on the back side of the plate-like member 60 in the carry-in direction. Is positioned in the longitudinal direction.

The conveying roller 7a may be configured to rotate by itself, or the plate member 60 is connected to the adhesive material coating device on the upstream side of the plate member horizontal laminating device 1. When there is a mechanism for feeding toward the one conveyance roller 7 a, the plate-like member 60 may be rotated by being fed.
Although not shown, a sensor for detecting the plate-like member 60 is provided on the side of the transport roller 7a, and the plate-like member 60 is carried to the right end side of the first conveyor 4 by this sensor. It is possible to detect whether or not.

The standing means 8 is for placing the plate-like member 60 carried in by the carrying-in means 7 on the transport conveyor (first conveyor 4) 8 with its side surface 60a raised, and supports a plurality of rotations. The body 11 is configured.
A plurality of the rotary supports 11 are attached to a rotary shaft 11a orthogonal to the transport direction of the first conveyor 4 at predetermined intervals in the axial direction. A pulley (not shown) is attached to the rotating shaft 11a. The pulley 12 is rotated by a motor 12 via a pulley 13 and a belt 14 attached to the rotation shaft, so that the plurality of rotation supports 11 are rotated in synchronization.
Moreover, the rotation speed of the rotation support 11 is variable. In order to make the rotation speed of the rotation support 11 variable, the rotation speed of the rotation support 11 may be controlled via the pulley 13, the belt 14, and the rotation shaft 11 a by controlling the rotation speed of the motor 12. .

Further, as shown in FIG. 3, the rotary support 11 has four support portions 11 a that support the plate-like member 60, and these support portions 11 a radiate in four directions radially from the center of the rotary support 11. It is formed to extend. That is, the four support portions 11 a are formed every 90 ° around the rotation center of the rotation support 11.
The support portion 11a is formed with contact surfaces 16A and 16B at a right angle with which the side surface 60A and the side end surface 60B of the plate-like member 60 abut. The length of the contact surface 16A is set substantially equal to the width of the plate-like member 60, and the length of the contact surface B is set slightly shorter than the thickness of the plate-like member 60. Further, the support portion 11a is formed so that the contact surface 16B of the support portion 11a is substantially flush with the upper surface of the first conveyor 4 when the support portion 11a is in a vertically upward position.

  And in the rotation support body 11, the contact surface 16A, 16B of the support part 11a is carried into the right end side of the 1st conveyor 4 by rotating counterclockwise in FIG. 2 and FIG. The support member 11a is rotated 90 ° to face the side surface 60A and the side end surface 60B of the sheet-like member 60 and is turned in the vertical direction. As a result, the plate-like member 60 is raised and the first conveyor 4 is raised. It is designed to be transported upward. That is, when the support portion 11a is in the vertically upward position, the contact surface 16B is substantially flush with the upper surface of the first conveyor 4, so that the plate member 60 is transferred onto the first conveyor 4. It can be done.

Further, an unloading means 18 is provided on the other end side (left end side) of the second conveyor 5 of the transfer conveyor 2. This carrying-out means 18 carries out the laminated material which laminates | stacks the several plate-shaped member 60 to a horizontal direction, and is provided with the some conveyance roller 18a. These transport rollers 18a rotate around the axis due to a drive reduction (not shown), whereby the laminated material is carried out downward in FIG.
As shown in FIG. 2, the second conveyor 5 is supported from below by a support frame 19, and the support frame 19 can be moved up and down by an elevating means 20. The elevating means 20 may be, for example, a rack and pinion type that can be moved up and down by a motor, or may be moved up and down by a cylinder.
As the support frame 19 moves up and down by the lifting means 20, the second conveyor 5 also moves up and down. When the second conveyor 5 is raised and in the upper position, the second conveyor 5 is located above the transport roller 18a and at the same height as the first conveyor 4, and the second conveyor 5 is lowered and lowered. When in position, the second conveyor 5 is positioned below the transport roller 18a.
Therefore, when the second conveyor 5 is in the lower position, the laminated material is supported by the transport roller 18a, and is transported downward in FIG. 1 by the rotation of the transport roller 18a.

Next, operation | movement of the plate-shaped member horizontal lamination apparatus 1 of the said structure is demonstrated.
First, the plate-like members 60 are successively carried in by the carrying-in means 7 of the feeding means 6. The plate-like member 60 is carried into the right end side of the first conveyor 4 with its side surface 60A laid down. Note that an adhesive is applied to at least one side surface 60A of the plate-like member 60A in the previous step. That is, the adhesive is applied only to the right side of the first plate member 60, the adhesive is applied only to the left side of the last plate member 60, and the intermediate plate member is applied to both sides thereof. Adhesive is applied. Application | coating of these adhesive agents is performed by the adhesive agent coating apparatus in the front process of the plate-shaped member horizontal lamination apparatus 1. FIG.

When the leading plate-like member 60 is carried into the right end side of the first conveyor 4, the sensor detects this. When the sensor detects the plate-like member 60, the motor 12 of the erection means 8 rotates, and the plurality of rotation supports 11 rotate in a counterclockwise direction. The rotary support 11 rotates 90 ° in about 3 seconds, and rotates relatively fast for the first 2 seconds and slowly for the subsequent 1 second.
Then, the contact surfaces 16A and 16B of the support portion 11a of the rotary support 11 abut on the side surface 60A and the side end surface 60B of the plate member 60 to support the plate member 60, and the support portion 11a is 90. By rotating, it is directed in the vertical direction, whereby the plate-like member 60 is raised and transferred onto the first conveyor 4. That is, when the support portion 11a is in the vertically upward position, the contact surface 16B is substantially flush with the upper surface of the first conveyor 4, so that the lower side end surface of the plate member 60 is the first conveyor. 4 is transferred to the first conveyor 4 in a state where the plate-like member 60 is erected. At this time, the plate-like member 60 was raised on the first conveyor 4 without falling down by setting the conveyance speed of the first conveyor 4 to be substantially equal to the tangential speed at the slow rotation speed of the rotary support 11. Change in state.

The first conveyor 4 on which the leading plate-like member 60 is placed rotates and moves to the other end side at a slow conveying speed, and thus the leading plate-like member 60 also moves to the other end side (the left end side in FIGS. 1 and 2). It is conveyed to. In the meantime, the next plate-like member 60 is carried into the right end side of the first conveyor 4 by the carrying-in means 7, and this plate-like member 60 is transferred onto the first conveyor 4 by the rotary support 11 in the same manner as described above. And conveyed to the other end side (left end side in FIGS. 1 and 2).
Similarly, the plate-like member 60 is successively carried to the right end side of the first conveyor 4, and this plate-like member 60 is successively transferred onto the first conveyor 4 by the rotary support 11 and is connected to the other end side (see FIG. 1 and the left end side in FIG. Accordingly, the plate-like members 60 are successively conveyed by the first conveyor 4 in a state of being separated in parallel at a predetermined interval.
Then, when the last plate-like member 60 is carried into the right end side of the first conveyor 4, and this plate-like member 60 is transferred onto the first conveyor 4 by the rotary support 11, the conveyance of the first conveyor 4 is carried out. The speed is increased, and the plurality of plate-like members 40 are conveyed in a state of being spaced apart from each other, and further transferred from the first conveyor 4 to the second conveyor 5. The transport speed of the second conveyor 5 is set to the fast transport speed of the first conveyor 4.

  When the plurality of plate-like members 60 are conveyed toward the other end side by the second conveyor 5 in a state of being separated in parallel, first, the leading plate-like member 60 comes into contact with the stopper 3 and stops. The second conveyor 5 rotates and moves after the leading plate-like member 60 comes into contact with the stopper 3 and stops, so that the next plate-like member 60 is conveyed toward the leading plate-like member 60, The plate-like members 60 and 60 are bonded to each other and stopped by contacting the leading plate-like member 60. Similarly, the plate-like members 60 after the head are successively conveyed toward the previous plate-like member 60, stopped by contacting the previous plate-like member 60, and the plate-like members 60, 60 are bonded together. The Thereby, a plurality of plate-like members 60 conveyed one after another are stacked in the lateral direction.

As described above, after obtaining a laminated material obtained by laminating a plurality of plate-like members 60 in the horizontal direction, the support frame 19 supporting the second conveyor 5 is lowered by the lifting means 20. Then, the 2nd conveyor 5 descend | falls and the said laminated material is supported from the downward direction by the conveyance roller 18a of the carrying-out means 18. FIG.
Thereafter, by rotating the transport roller 18a, the laminated material is unloaded in FIG. 1 and transported to the next step.

As described above, according to the plate-like member horizontal laminating apparatus of the present embodiment, the leading plate-like member 60 is conveyed by the conveying conveyor 2 including the first conveyor 4 and the second conveyor 5 and comes into contact with the stopper 3. Further, the plate-like members 60 after the top are successively conveyed toward the first plate-like member 60 stopped by the conveyer 5, thereby laminating a plurality of plate-like members 60 in the lateral direction. be able to.
Therefore, when increasing the number of laminated plate-like members 60, it is only necessary to increase the number of plate-like members 60 conveyed by the conveyer 2, so that the number of components and the size of the apparatus are not increased, and the plate-like member 60 is increased. It is possible to easily cope with an increase in the number of laminated members.
Moreover, since it is sufficient if the transport conveyor 60 and the stopper 3 are provided, the configuration of the apparatus is simple, and furthermore, since the plate-like member 60 is transported in the horizontal direction (horizontal direction) and stacked, There is no lamina roll or misalignment caused by a drop impact.

Moreover, since the plate-like member 60 is sent one after another by the feeding device 6 onto the first conveyor 4 from one end side of the first conveyor 4 of the conveyer 2, the plate-like member 60 is successively moved to the stopper 3 side by the conveyer 2. Can be efficiently transported at almost regular intervals.
Furthermore, since the feeding means 6 is provided with the carrying-in means 7 and the standing means 8, the plate-like member 60 is carried into the one end side of the transport conveyor 2 by the carrying-in means 7 with the side surface 60A lying down. Thus, the plate-like member 60 can be stably loaded, and the loaded plate-like member 60 is placed on the conveyor 8 with the side surface 60A raised by the standing means 8, so In this state, the plate-like members 60 that are successively carried in can be raised one after another and placed on the conveyor 2 and conveyed toward the stopper 3 side.

In addition, since the standing means 8 includes the rotation support body 11, the plate-like member 60 with the side surface 60A laid down is supported from below by the support portion 11a of the rotation support body 11, and is on the side of the conveyor 2 Since the plate-like member 60 is transferred onto the conveyor 2 with its side surface 60A raised, the plate-like members 60 that are successively loaded in the laid state are raised one after another. Can be transferred onto the conveyor 2.
Moreover, since the conveyance speed of the conveyor 2 is variable and the rotation speed of the rotation support 11 is variable, the conveyance speed of the conveyance conveyor 2 and the rotation speed of the rotation support 11 are appropriately set as described above. By doing so, the plate-like member 60 can be reliably put on the conveying conveyor 2 in a raised state, and can be quickly conveyed to the stopper side 3.
Furthermore, since the carrying means 18 for carrying out the laminated material formed by laminating the plate-like members 60 in the lateral direction is provided on the other end side of the conveyer 2, the plate-like member is disposed on the other end side of the conveyer 2. The laminated material formed by laminating the plate-like members 60 can be manufactured one after another by carrying out the laminated material obtained by laminating 60 by the carrying-out means 18.

  In the present embodiment, the transport conveyor 2 is configured by the first conveyor 4 and the second conveyor 5, but the present invention is not limited to this, and the transport conveyor 2 may be configured by a single conveyor. In this case, the conveying roller 18a of the unloading means 18 can be moved up and down, and the laminated material formed by laminating the plate members 60 conveyed by the conveying conveyor 2 can be carried out after the conveying roller 18a is lifted and supported.

1 is a plan view showing an outline of an example of a plate-like member horizontal laminating apparatus according to the present invention. FIG. It is a side view of a rotation support body same as the above. The laminated material which laminates | stacks several plate-shaped members is shown, (a) is a disassembled perspective view of a laminated material, (b) is a perspective view of a laminated material.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Plate-shaped member horizontal laminating device 2 Conveyor 3 Stopper 6 Feeding device 7 Loading means 8 Standing device 11 Rotating support 11a Supporting part 18 Unloading means 60 Plate-shaped member (lamina)
60A Side surface of plate member

Claims (6)

A plurality of plate-like members coated with an adhesive on at least one side surface thereof, with the side surfaces thereof being upright and substantially parallel and spaced apart, and a conveyor conveyer that sequentially conveys from one end side to the other end side;
A stopper provided on the other end side of the conveyor to stop the leading plate member by contacting the leading plate member conveyed by the conveying conveyor;
The conveying conveyor is configured to laminate a plurality of plate-like members in a lateral direction by conveying the plate-like members after the leading edge toward the leading plate-like member stopped by the stopper. Horizontal lamination device. In the plate-shaped member horizontal laminating device according to claim 1,
A plate-like member horizontal laminating device, wherein a feeding device for successively feeding plate-like members onto the conveyer is provided on one end side of the conveyer. In the plate-shaped member horizontal laminating device according to claim 2,
The feeding device is configured to carry in the plate-like member to one end side of the conveyor, with the side surface of the plate-like member laid down,
A plate-like member horizontal laminating device, comprising: an uprising means for placing the plate-like member carried in by the carry-in means on the conveying conveyor in a state where the side surface is raised up. In the plate-shaped member horizontal laminating device according to claim 3,
The rising means includes a rotation support body that rotates around an axis orthogonal to the conveyance direction of the conveyance conveyor and has a plurality of support portions that support the plate-like member at a predetermined interval in the circumferential direction,
This rotating support is a state in which the plate-like member is erected on its side surface by rotating the plate-like member in a state in which the side is laid down from the lower side by the support portion and rotating to the transport conveyor side. A plate-like member horizontal laminating device, wherein the plate-like member horizontal laminating device is transferred onto the conveyor. In the plate-shaped member horizontal laminating device according to claim 4,
The plate-like member horizontal laminating apparatus, wherein the conveyance conveyor has a variable conveyance speed, and the rotation support has a variable rotation speed. In the plate-shaped member horizontal laminating device according to any one of claims 1 to 5,
The plate-like member horizontal laminating apparatus is characterized in that an unloading means for unloading the laminated material formed by laminating plate-like members in the lateral direction is provided on the other end side of the conveyor.

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