JPS59212343A - Device for conveying veneer in - Google Patents

Abstract

PURPOSE:To promote the accuracy of positioning of a veneer on a ruler and improve working properties for the veneer, by bringing one end of the veneer supported by a conveying roller and a support roller, into contact with the surface of the ruler to position the veneer thereon while conveying the veneer perpendicularly to the direction of its fibers. CONSTITUTION:A veneer S taken out of a veneer stack 12 is moved in the direction of the fibers of the veneer so that one end of the veneer is placed between a conveying roller 15 and a support roller 18. When the weight of the veneer S has acted to the conveying roller 15, the linear elements 17 of the roller continually come into touch with the bottom of the veneer and the free ends of the linear elements are displaced to apply a conveying force to the veneer to bring its end into contact with a ruler surface 14a. The veneer S is thus carried onto a belt conveyor while the veneer remains positioned on the ruler, so that the veneer is conveyed into a veneer processor.

Description

[Detailed Description of the Invention] [Detailed Description of the Invention] Technical Field The present invention relates to a clipper device, a tenderizing device 6, a horizontal gating device, a dry smoke device,
Or accumulation! This invention relates to a veneer loading device that is installed on the loading side of various veneer medium veneer processing devices such as A-type (hereinafter, veneer veneers are referred to as veneers).

BACKGROUND ART Conventionally, as shown in FIG. 1, the above-mentioned citrus veneer processing apparatus includes a belt conveyor 1 on the carry-in side, and a ruler belt having a ruler surface 2a that curves and moves in the conveyance direction of the conveyor 1. 2 and 1411, and the stacked veneer 3 is arranged with its fiber direction oriented in a direction perpendicular to the conveying direction.
After taking out the heavy plate S from 1111 and transferring it onto the conveyor 1, one edge of the sheet in the fiber direction is i? iJ ruler side 2
The ii board S was carried into the veneer processing equipment'\ while pressing it against the veneer a and taking out the ruler of #3 S. However, due to the high speed operation of the veneer processing equipment, there were problems with the accuracy of taking out the ruler of the veneer S and the efficiency with which the operator took out the veneer S from the stacked veneer 3. In particular, the actual situation is that handling the heavy veneer S in a direction perpendicular to the fiber direction causes significant damage to the veneer S.

Purpose of the Invention The purpose of the present invention is to take into account the disadvantages of the traffic described in L, and to provide a simple structure that allows the u1 board to be handled in the direction of the fibers of the veneer with the least chance of damage, and in addition, to handle the u1 board in the direction of the fibers of the veneer with the least chance of damage.
It is an object of the present invention to provide a loading device for intermediate plates, which can improve workability in the direction of the loading process and achieve faster and more efficient loading processing.

Structure of the Invention The present invention relates to the transport of a medium plate processing apparatus in a.
(Salt 41 with the fiber direction perpendicular to the forging force direction)
A medium plate is installed, and a large number of linear bodies having axes in the direction of the conveying force and inclined in the conveying direction at least in the free part 1 or 1i11 are placed near one end in the fiber direction of the stacked veneer. a support roll having an axis in the same direction as the feed roll and supporting one end of the veneer in the fiber direction in cooperation with the feed roll; The veneer has a ruler surface along the conveyance direction of the device, and as the feed roll rotates, one edge in the fiber direction of the veneer supported by the feed roll and the support roll is brought into contact with the ruler surface, and the veneer is rotated. The veneer is taken out in the fiber direction from the stacked veneers, and the veneer is supported and conveyed in the direction perpendicular to the fibers while the ruler is taken out, and the veneer is taken out to the intermediate board processing device described in utJ.

Example The present embodiment will be described below with reference to the drawings.

Figure 2 is a plan view of the road body, Figure 3 is a first view of Figure 2, and Figure 4 is a plan view of the road body.
This figure and FIG. 5 are explanatory diagrams of the feed roll.

In the figure, a belt conveyor 10 is included in a veneer processing device (not shown), and consists of two conveyor belts 11a-1l that are continuously or intermittently driven to convey in a predetermined direction at an appropriate speed.
b, which will be described later. ．． j11', °20
The medium plate S transferred from the veneer processing equipment is transferred to the veneer processing equipment.

) 1; (rf! board 12 is placed at 11) 1 bell I/conveyor 10 inlet III, and the fiber direction is oriented in the direction perpendicular to the] 11) feeding force direction of belt conveyor 10. of? A deflection plate S is deposited. In addition, M [laminated veneer 12
The veneer S is placed on a lifter (not shown) which moves up and down, and the veneer S is taken out by sequentially controlling the movement of the veneer S according to the supply of the veneer S to the carrying-in 20, which will be described later. The 11th function is to keep the value roughly and constant.

Carrying in/equipment 620 consists of ruler removal/equipment + 13 yen, feed roll 15, support roll 18, and 1) 11
After supporting one fiber direction j'51 part of the middle plate S supplied from the middle plate 12 of the recording board 4I'1, and taking out the ruler,
The veneer S is transferred onto the belt conveyor 10.

The redundant display devices 13 are installed at Iλ on the stacked veneer 12 and at least on the conveying side of the belt conveyor 10, and move in the direction of the conveyance direction of the belt conveyor 10 at substantially synchronized speeds in the direction of the solid line arrow shown in the figure. It consists of a ruler belt 14 having a ruler surface 14a.

The ruler device 13 is supplied from the intermediate deposition plate 12 described in No. 111, and includes a feed roll 15 and a support roll 18, which will be described later.
The edge of the veneer S in the fiber direction, one end of which is supported in the fiber direction, comes into contact with the ruler surface 14a to ruler out the heavy board S.

The 1+iJ feeding roll 15 is arranged between the +iiij stacked veneer 12 and the ruler delivery device 13, and the belt conveyor 1
has an axis in the conveying direction of 0 and at least IIt
A large number of linear bodies 17 are supported at their free ends by support rolls 18, which will be described later, on the outer periphery of a rotating IIId 116 that rotates in the direction of the solid line arrow in the figure, with the entire shaft length on the input side of the belt conveyor 10. The linear body 17 is implanted so as to be able to contact the lower surface of the plate S.
It is made of a synthetic 8I resin material or a metal material with excellent anticorrosion properties, and 1) the free end thereof is set at an appropriate angle θ1 in the conveying direction with respect to the IJ rotary member 16, and an appropriate angle 02 in the rotation direction. It is planted in an inclined position. The angle θ1 is set to 8 to 30 degrees, and the angle θ2 is set to approximately 0 to 25 degrees. A detailed explanation of the J1 re-roll 15, as well as an example of its history, is described in detail in Japanese Patent Application No. 58-20872 (name of invention, feed roll), which was filed earlier by an unpublished person. Therefore, the explanation will be omitted.

The bending support roll 18 is arranged on the side of the regular plane 14a from the upper position of the feed roll 15, and extends in the same direction as the feed roll 15;1. It has approximately the same axial length and rotates in the direction of the solid line arrow in the figure.
The fiber direction end of the veneer S taken out in the fiber direction from the veneer S is supported in a cantilevered state by the roll 15 that conveys the force on the surface, and as it rotates, the fiber direction end of the fiber N11 is transferred to the ruler surface 1.
4a side.

The reliability of this embodiment will be explained with reference to FIGS. 6 and 7.

As shown in FIG. 6, an operator moves the intermediate plate S taken out from the stacked veneer 12 in the direction of the fibers, and attaches one end of the intermediate plate S in the fiber direction to the feed roll 15, which rotates in the direction indicated by the solid line arrow in the figure. (<7i1'i) between the support roll 18. Through this operation, the veneer S is drawn in by the feed roll 15 and the support roll 18, and is supported in a cantilevered state, and the veneer S
When its own weight acts on the feed roll 15, the feed roll 1
The linear body 17 of No. 5 is in continuous contact with the lower surface of the veneer S,
Part 1: Due to the displacement of the peak end, a conveying force F is applied to the veneer S in the direction illustrated by the solid arrow in FIG. 7. As a result, the edge of the veneer S in the fiber direction comes into contact with the ruler surface 14& moving in the direction of the solid line arrow in the figure, and is conveyed to the belt conveyor 10 without being rulered. Then, when the cantilever support by the feed roll 15 and the support roll 18 is released as the veneer S is transported, the veneer S is held in contact with one edge in the fiber direction and the ruler surface 14a. After being transferred onto the belt conveyor 10, it is carried into the 1p plate processing equipment path according to the drive thereof. The conveyance force F applied by the feed roll 15 is basically applied by tilting the protruding end of the linear body 17 at an appropriate angle θ1 in the conveyance direction of the belt conveyor 10, and applying the own weight of the veneer S. It grows naturally by allowing
The free end of the linear body 17 is further moved at an appropriate angle θ in the direction of the rotational force.
2. Due to the small size, it is possible to generate a conveying force F inclined in the conveying direction of the heel conveyor IO. This contributes to the ability of the feed roll to function at a lower rotational speed, and has the effect of significantly reducing wear on the linear body of the roll.

In this way, in this embodiment, the operator only needs to move the intermediate plate S from the stacked veneer 12 in the direction of the fibers, and it is possible to take out the ruler and transport it to various veneer processing equipment. Compared to the conventional loading and unloading method in which the veneer taken out from the masonry veneer is moved in the direction perpendicular to the braided veneer to remove the ruler, it is more convenient to record the damage rate of the φ board S on paper. .

In this example, one fiber direction in width &S is 44ri.
The fill is sent to the feed roll 15 and the support roll 18 to make it last for a month! Although the configuration is such that the heavy plate S is supported by a seat, the intermediate plate processing device 6 is used since the heavy plate S, which has a width in the fiber direction or a long shape, is taken out with a ruler.
: As shown in FIG. Even if the structure is such that it is carried into the intermediate plate processing equipment while supporting it, it will take 1M.

In addition, the present invention allows the support roll to be a rotating spiral roll with threads formed on its outer periphery, or, similar to the feed roll, to have a large number of linear bodies arranged at least at the free end in the direction of the conveying force. It is also possible to implement it by constructing a roll having 16 rolls.

In addition, in cases where the belt conveyor 10 of the heavy plate processing device is driven to convey continuously or intermittently, the drive format of the present invention's all-in-one direct loader is basically as follows. Although it is configured to be synchronized with the belt converter IO, it may be configured in any format as required. Furthermore, when the conveyor belt 10 is stopped and the veneer S on the neck is stopped, only the ruler heald 14a having a large friction coefficient is stopped without stopping the feed roll 15 and the support roll 18. ,? It is also possible to interrupt the transport of the i-board S.

Furthermore, this embodiment uses a ruler removal device 13 that can move in the conveying direction of the ruler surface 14ae, and the edge of the veneer S transferred to the belt conveyor 10 in the direction of the fibers, the surface W surface 1L, and the surface 1L of the veneer 9 JCt dry hand '7- Ill +→・shi]↓
Alternatively, the present invention provides a non-movable type ruler-setting device having a ruler that curves in a long slotted direction in the direction of conveyance and has smoothness f and Q on the side that comes into contact with one edge in the fiber direction of the veneer. It can be implemented even if

DETAILED DESCRIPTION OF THE INVENTION As described above, the present invention can be carried out by any veneer processing equipment.
A stacked veneer is installed in ll11 with the braided string direction perpendicular to the conveyance direction of the device, and a layer 11ii having an axis in the conveyance direction near one end of the stacked veneer in the fiber direction, and at least free It has a feed roll made up of nine linear bodies whose ends are inclined toward the transport direction, and a line extending in the same direction as the feed roll, which cooperates with the feed roll to form one side of the veneer. A supporting roll supporting the end portion in the fiber direction of the veneer processing apparatus, and a ruler along the conveying direction of the veneer processing apparatus described in Ii'iJ, and being supported by the feeding roll and the supporting roll due to the rotation of the feeding roll. One edge of the intermediate board in the fiber direction is brought into contact with the ruler surface described in 1iiJ, and the intermediate board taken out from the stacked veneer in the fiber direction is connected to a ruler taking out device for taking out the veneer as a ruler. In addition to ejecting the ruler while supporting and conveying it in the direction perpendicular to the weaving, a simple +16 configuration in which the veneer is transported to the 1111 veneer processing equipment allows the veneer to be handled in the direction with the lowest breakage rate, and also improves the accuracy of ruler ejection. The present invention is a direct loading and unloading system for carrying in intermediate plates, which can improve workability and achieve faster and more efficient processing of intermediate plates.

[Brief explanation of drawings]

Fig. 1 is an explanatory diagram showing a conventional example, Fig. 2 is a plan view of the road body of a veneer width loading device, Fig. 3 is a front view of Fig. 2, Fig. 4 is a side view (Fig. 5 is FIGS. 6 and 7 are explanatory views of the feed roll, and FIG. 8 is an explanatory view showing a modified embodiment of the present invention. In the figure, 10 is a belt conveyor, and 12 is a stacked veneer. , 14a is a ruler surface, 15 is a feed roll, 17 is a linear body, 18 is a support roll as a support member, 20 is a carrying device, and S is a veneer. Patent applicant: Meinan Seisakusho Co., Ltd. Representative Patent attorney Italian Embryo Research Institute – Figure 3

Claims (1)

[Claims] 1. A hennya 11'! board is placed on the inlet side of a (r, Q: The stacked veneer veneer is placed near one end in the fiber direction with +itI in the transport direction\\
A feed roll comprising a large number of linear bodies having an axis and whose free ends extend in the direction of the conveying force, and a yoke in the same direction as the feed roll. , a support roll that supports one part of the veneer intermediate board in the fiber direction in cooperation with the feed roll; According to the rotation of the plywood intermediate plate supported by the feed roll and the support roll, the edges of the grooves and fibers in the veneer intermediate plate are brought into contact with the ruler surface, and the veneer i
A ruler taking out device for taking out a ruler of the 1111 veneer board, and a ruler taking out the 1111 veneer veneer while supporting and conveying the veneer middle board taken out in the fiber direction from the 1111 stacked veneer middle board in the direction perpendicular to the fibers. A loading device for veneer veneers, characterized by loading them into a processing device.