JPH04168301A - Panel size checking apparatus for supporting frame used in assembly of wooden panel - Google Patents

Abstract

PURPOSE:To easily check that the size of an assembled panel meets standards by holding a panel body between a fixed ruler and a movable ruler of a base part, and tightening the body with pressure by a pressing part at the front face of the main body of the movable ruler. CONSTITUTION:While a movable ruler 10 is loosened, a panel body having an adhesive applied to the bonding surface thereof is inserted between a fixed ruler 13 and the movable ruler 10 on the upper surface of a base part 12 to butt against another panel body in the surface direction. Then, a pressing part 11 of the movable ruler 10 is pressed to the fixed ruler 13, so that each panel body is tightened and bonded together. At this time, because of the action of the pressing part 11, a slide shaft 11a having one end fixed to the pressing part 11 is moved. As a result, a bolt at the other end of the slide shaft 11a moves a supporting plate part in accordance with the movement of the slide shaft 11a, and an end of one bolt of the supporting plate part is pressed in contact with a measuring element of a dial gauge 24a. Consequently, an indicator of the dial gauge 24a is moved. Therefore, it can be confirmed whether or not the size of the panel meets standards by reading the indicator of the dial gauge 24a when the panel body is tightly compressed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a support frame for assembling wooden panels, and in particular, it relates to a support frame for assembling wooden panels, and in particular, a method for attaching face plates to both sides of a rectangular frame on the base of the support frame. The present invention relates to a panel dimension checking device that checks whether the dimensions of the assembled panel are within a standard when rectangular panel bodies made of two or more rectangular panels are joined in their surface directions and assembled.

``Conventional technology'' One of the methods of constructing single-family prefabricated houses is the use of frame materials (
The floor,
There are ways to assemble walls etc.

This construction method is, for example, the method shown in FIGS. 22 to 25. That is, as shown in Fig. 22, unitized floor panels 2 are laid on the concrete foundation I constructed on site, and the floor panels 2 shown in Figs.
The building is constructed by assembling the wall panels 3 on the first and second floors as shown in FIG. This is the method.

In addition, each of the above panels (floor panel 2, wall panel 3, etc.)
The floor panel 2 is integrated with adhesive and screw nails, and the floor panel 2 is laid through an architrave on the adjusted mortar adjusted to the top surface of the foundation (fabric foundation in the illustrated example) l. Each wall panel 3 of the section is integrated with the foundation by inserting a hole at the lower end of the wall panel into an anchor bolt protruding from the upper surface of the concrete foundation and tightening the bolt.

By the way, in such a construction method for a house, the work of joining the wall panels to each other is usually performed by using a panel tightening device called a Nommerer to firmly join the wall panels to each other.

This work consists of multiple wall panels raised above the floor.
By sandwiching the wire between a pair of left and right support members connected by a single wire and winding the wire by operating a wire winding device attached to one of the support members,
In recent years, with the progress of industrialization in construction work, there has been a demand for construction work in which wall panels and the like are assembled in advance from large wooden panels.

``Problem to be solved by the invention'' However, at present, manufacturing such large wooden panels is a manual process even if it is carried out in a factory.
There were problems that needed to be solved, such as it was time-consuming and difficult to improve the quality.

As a result of intensive research to solve these problems, the inventors of the present invention have developed a method of mounting a plurality of rectangular panel bodies, each consisting of a rectangular frame body with face plates attached to both sides. At the base where the panel is to be placed, the panel bodies are joined in the plane direction, and the panels are sandwiched between a fixed ruler and a movable ruler on the base, and the entire panel body is cured for a certain period of time (adhesive They came up with the idea that if they were to be pressed together (the period required for adhesion), it would be easier to manufacture large wooden panels in factories.

However, the reality is that no effective and suitable equipment for assembling such wooden panels has been developed at present, and when joining multiple panel bodies using such equipment, the following method is required. There are still many issues that need to be resolved.

In other words, the assembled large panels save labor and simplify on-site work by eliminating the need to assemble panel bodies on-site as walls of houses, for example, by simply fixing them to the foundation on-site. It forms the basic part of the wall of a house.

However, if the dimensions of a large panel are incorrect, it will take a lot of effort to correct it on site, and the labor savings will be meaningless. Therefore, when large panels are assembled in a factory, it is necessary to check that they have been assembled to the correct dimensions to match the design of the house to be built. However, since the panels are large, there is a problem in that it takes a lot of time to measure the dimensions of the panels and check whether the dimensions of the panels are within the specifications.

The present invention has been proposed in view of these circumstances, and its purpose is to provide a support frame that serves as a jig when joining a plurality of standardized panel bodies in the plane direction. To provide a panel dimension checking device for a support frame for assembling wooden panels, which can easily check whether the dimensions of assembled panels are within standards.

"Means for Solving the Problems" In order to achieve the above object, the present invention provides a rectangular frame having a plurality of rectangular panel bodies with face plates attached to both sides of the frame body. The panel bodies are glued and bonded in the plane direction on the base part, and the panel bodies are sandwiched between the fixed ruler and the movable ruler of the base part, and the entire panel body is pressed by the pressing part provided on the front side of the movable ruler main body part. An assembly support frame adapted to be clamped, wherein the main body of the movable ruler is provided with a measuring mechanism linked to the movement of the pressing part, and a dial gauge operated by the measuring mechanism, and the measuring mechanism The mechanism consists of a slide shaft with one end fixed to the pressing part, a shaft part provided to be movable back and forth parallel to the slide shaft, a support plate part fixed to one end of this shaft part, and this support plate part. It is equipped with bolts screwed to the left and right ends, respectively, and a biasing means for biasing the shaft portion toward the dial gauge side, and a gauge head of the dial gauge is in contact with the tip of one of the bolts, and
This is characterized in that the other bolt moves the support plate portion as the slide shaft moves.

"Operation" To assemble a plurality of panel bodies using the support frame equipped with the panel dimension checking device according to the present invention, first fix the base surface with the movable ruler released by 4 degrees. A panel body with adhesive applied to the joint surface is inserted between the ruler and the movable ruler, and the panels are butted together in the plane direction.

Next, the pressing part of the movable ruler is pushed out toward the fixed ruler to press and tighten each panel body. Through this operation, each panel body on the base portion is integrated with the joining end surfaces firmly adhered.

At this time, due to the operation of the pressing part, a slide shaft whose one end is fixed to the pressing part moves, and along with the movement of this sliding shaft, the other bolt moves the support plate part, and one bolt of this support plate part moves. The tip of the dial touches the measuring head of the dial gauge and moves the pointer of the dial gauge.

Therefore, by reading the pointer on the dial gauge at the stage where the panel is pressed, it is possible to check whether the dimensions of the panel meet the standards.

“Embodiment” An embodiment of the present invention will be described below with reference to the drawings. 1 to 21 show a support frame for assembling a wooden panel to which the panel dimension checking device according to the present embodiment is applied, and the state of its use. In these figures, the symbol Δ indicates the present invention as a whole. This is a support frame equipped with a panel dimension checking device.

The support frame A serves as a work table when joining a plurality of rectangular panel bodies P, P, etc., which are formed by attaching face plates to both sides of a rectangular frame body, in the plane direction thereof. , the panel body P is joined in its surface direction, and the panel body P is pressed by a pressing portion 11 of a movable ruler IO that is movable in the longitudinal direction of the support frame A.

The basic structure of the support frame A is, as shown in FIG. A fixed ruler 13 is provided on one edge of the base portion 12 to position the end face of the panel body P assembled on the base portion 12, and a fixed ruler 13 is provided on one edge of the base portion I2 to position the end face of the panel body P assembled on the base portion 12. A movable ruler 10 is arranged to be movable along the direction, and has a pressing part 11 that presses the panel body I) with a hydraulic cylinder 20 against a fixed ruler I3 erected on one edge of the panel body I) in the transverse direction. It is mainly composed of.

First, the base section 12 that constitutes the support frame A will be explained. This is assembled from steel materials such as square steel pipes, and specifically constitutes the framework of the base section 12 and on which the panel body P is placed. Shirutanu vertical and horizontal beam members 12a,
12b, the reinforcing beams 12C112c and the beams 12a and 112c with a frame passed between these beams 12a and +2b, and the beams 12a% +
2b and a wire-mesh-like bottom plate 12d stretched between the base plate 2b and the bottom plate 12d.

In addition, a panel body P adhesively bonded to the base portion 12
A plurality of rollers 14 are installed inside the frame body 14b to carry out the
The roller conveyors 14, 14 and 14 are arranged in two rows on the support frame A. These roller conveyors 14 are the base part! The panel body P is stored in a storage hole +2c provided in the bottom plate 12d of 2 so as to be vertically movable, and by pushing up the roller conveyor 14 from below the storage hole 12e when carrying out the panel, the panel body P is moved in the longitudinal direction of the support frame A. It is being moved out.

Note that the bottom surface of the frame body 14b of the roller conveyor 14 is provided with the roller conveyor 1 when pushing up the roller conveyor I4.
Fitting hole 1 into which the protrusion fits in order to prevent the position shift of 4.
4c is provided, and the base portion 12 is provided with a panel body P.
Two fixed roller conveyors 15.1 to assist in carrying out
5 is a roller conveyor! 4.14... are provided in a fixed state at the same height as the pushed up height, so that the panel body P can be carried out in a horizontally stable state.

On the other hand, this base part 12 can be towed and run on a guide track, and is provided with a clamp part 16.16 on which a traction device is hooked in order to tow the base part I2.

As shown in FIG. 2, etc., the clamp portion 16, I6 is
A locking plate 16a on which a traction device or the like is hooked, and a locking plate 16a are provided facing each other after reaching the support frame in order to pull the support frame A in both rear and rear directions. a toggle clamp 16c that supports the locking plate 16a and rotates the locking plate 16a by operating the locking plate 16c)<-IGb;
Two arms 16d and 16e that are locked to the lever +6b and operate the lever +6b, and these arms 16
The hook is passed between d, 16e and these arms +6d, 1
The locking plate is made up of a coil spring 16 which urges the arms 6e toward each other and a protruding piece 16g provided at the end of the arm 16d, and is supported on the toggle clamp 16c by pushing the protruding piece 16g of the arm +6d. 16a is tilted toward the advancing direction of the support frame A to release the engagement between the locking plate 16a and the traction device.

In the embodiment, as shown in FIG.
A support [If frame 1,
Two support plates 17 and 17 having locking protrusions 17a that support the entire support frame 8 when moving up and down A are provided, and guide rollers 18 for traveling are provided on both sides of the base portion 12. .18... are provided at the front and rear of the base part (2).

On the other hand, the fixed ruler 13 provided on the base part 12 includes a first ruler body 13a made of a vertical core material 12a that constitutes the outer frame of the base part 12; A second ruler body +3d also serves as a horizontal core member 12b. In the illustrated example, an auxiliary ruler body 13b is provided parallel to the first ruler body 13a so that it can be removed and shifted to the opposite side, and this ruler body +3b is arranged in almost the same way as the movable ruler lO. configured, a hydraulic cylinder 20
By arranging this, the front pressing portion 13c can be moved.

Further, a protruding plate +2h for returning a coupling mechanism 52 on the circulation mechanism B side to its origin, which will be described later, is provided on the second ruler body +3d of the base portion 12, protruding from the ruler body 13b.
I'm here.

Next, the movable ruler 10 will be explained as follows.
A movable ruler body 10a that is movable in the longitudinal direction of support frame z, A, and a panel body 1 which is provided parallel to the movable ruler body 10a and whose ends are moved by a hydraulic nolinder 20. A frame-side coupling mechanism (hereinafter referred to as the first coupling mechanism) 2+ that is provided on the movable ruler main body 10a and constitutes a connection part between the pressing part II that presses and the i+b pipe of the external hydraulic pressure supply means. And the pressure oil sent to this first coupling mechanism 21 is
It mainly consists of a hydraulic circuit 22 supplying +b pressure to the cylinder 20, and ratchet type positioning means 23 provided at both ends of the movable ruler 10 and for fixing the movable ruler main body 10a in a position corresponding to the size of the panel to be assembled. It is configured.

On the upper surface of the movable ruler main body 10a, there is a roller 14a used when carrying out the adhesively bonded panel body P.
Two rulers are installed with their rotating shafts facing the longitudinal direction of the movable ruler main body 10a. Furthermore, protrusions 10b are provided on the upper surface of both ends of the movable ruler main body 10a to serve as locking portions when the movable ruler 10 is moved.

Furthermore, a dial gauge 24a for measuring the movement of the pressing part 11 is provided on two sides of the center of the movable ruler main body 10a as a component of the panel dimension checking device according to this embodiment, and the value of this dial gauge 24a is provided. By,
When pressing the panel body P to be joined, it is possible to confirm that the width of the panel is within the standard.

Note that this dial gauge 24a is measured by a measuring mechanism 24 that is linked to the movement of the pressing part II, as shown in FIG.
The needle is configured to move, and in the embodiment, the measuring mechanism 24 has a slide shaft 1 whose one end is fixed to the pressing part 11.
1a, and a transmission section 24c that transmits the movement of the slide shaft 11a to the probe 24b of the dial gauge 24a. The transmission section 24c includes a shaft section 24[ which is provided on the upper surface of a support section 24d that supports the dial gauge 24a so as to be movable back and forth via a bracket 24e.
and a support plate portion 24g fixed to one end of this shaft portion 24F.
The bolts 24h and 241 screwed onto the left and right ends of the support plate portion 24z, respectively, and the shaft? Biasing means 2 for biasing dl 24 r toward the dial gauge 2.4 a side
It is composed of 4j. And in the example, 61
1. Dial gauge 24a on the top surface of one bolt 24h
When the gauge head 24b comes into contact with the other bolt 24i,
The support plate portion 24g is brought into contact with the abutment plate 11b of the slide shaft 11a, and is moved together with the movement of the slide shaft 11a.

By the way, the pressing part +1 is formed by slide shafts 11a and Ila extending perpendicularly from the pressing part 11 and penetrating into the movable ruler main body lOa, which is a plate-like groove extending along the inner side surface of the movable ruler main body 10a. It is supported movably in the longitudinal direction of the support frame, and this pressing portion 11 includes:
The tip of the piston rod 20a of the hydraulic cylinder 20 is attached, and the hydraulic cylinder 20 allows the panel body ■]
In addition, between the movable ruler main body 11a and the pressing part 11, there is a pair of left and right arbor members 11 whose intermediate parts are connected with a pin.
c and a connecting member lid that connects these arm members 11c.
A parallel link mechanism 11e consisting of
I moves parallel to the movable ruler body 10a, and the panel body I
) are arranged so as to apply pressure evenly.

Now, as shown in FIG. 6 etc., the first coupling mechanism 2
1, a commercially available coupler joint 25 is used, which is used for manual connection of flexible piping when flexible piping is used to easily change the hydraulic path. Male and female joints 25a, 25b, 25c forming the joint 25
, 25d, male side joints 25a and 25b are applied. In addition, this couple large joint 25 is
In order to prevent oil from leaking when the male and female joints 25a, 25b, 25c, and 25d of the coupler joint 25 are separated, a reverse ratio valve (path shown) is provided in the opening 25e to prevent the connection. When this happens, joints 25a, 2
The protrusions provided in the openings 25e of the check valves 5b, 25c, and 25d press the check valves against each other to open the check valves.

The male joints 25a and 25b used as the first coupling mechanism 21 are provided with a taper 25r that tapers toward the tip so that the tips thereof can be easily connected to the female joints h25c and 25d. Thereafter, an annular fitting groove 25g that fits into the female side grooves 25c and 25<l in the circumferential direction is provided.

Incidentally, the external M1+ pressure supply means includes a female joint 25 that fits into the male joints 25a and 25b.
c, 25d are used, and this female 1! I11
The openings 25e of the joints 25c and 25d are adapted to fit the male end portions.

More specifically, a large number of ball holes 25h are provided at the periphery of the opening 25e in a row in the circumferential direction and pass through the joints 25c and 25d, and one pole body 251 is inserted into each of the pole holes 25h. It is fitted so as to be movable in the axial direction of the hole 25h.

Then, a join l-2 is formed around the periphery of this opening 25c.
A ring 25j is attached to press the pole body 251 so as to be movable in the axial direction of 5c and 25d.
By the forward and backward movement of the ring 25j, the joints 25a and 25b of the hole body 25i are pressed against and released from the fitting d1\25g, and the joints 25 are connected and released. The female joints 25c and 25d are provided with a well-known self-locking mechanism, and when the ring 25j is pulled rearward, it stops at that position, and the male joint 25a is attached to the female joints 25c and 25d. , 25b, the ring 25j moves forward and the connection of the joint 25 is locked. joints 25a, 25
b is attached to fitting holes 21b, 21b provided in parallel on the support plate 21a on the upper surface of the movable ruler main body 10a. Specifically, a sleeve 21c and an O-ring 21d are interposed in the fitting hole 21b. Connect the joint 25a on the male side.
, 25b, and press the press plate 2 from both sides of the support plate 21a.
It is designed to be fixed by holding it in place. With this configuration, the male joint 25a
, 251] - its movement downward and left and right is 3' (contained,
The fitted joints I-25a and 25b have some degree of freedom in their positions, and as will be described later, the support plate 21a can be moved up and down while being urged upward by the spring 21j (shown in FIG. 18). By being able to move,
Even if the position is slightly shifted when connecting to the female side joints 25c and 25d, the connection can be made.

Projections E are provided on the left and right front surfaces of the support plate 21a for the coupling mechanism of the external hydraulic pressure supply means, and the projections are guided and fitted so that the coupling mechanism 21 can be accurately connected. A guide tube 21r is provided.

In addition, the code|symbol 21g is a fixing metal fitting for fixing the 1st coupling mechanism 21 to the movable ruler main body IOa. As shown in FIG. 18, an insertion hole for a support piece 211 protruding from the back surface of the support plate 21a is inserted into the guide shaft 2111 erected on the left and right sides of the fixing metal fitting 21g. At the same time, the spring 21j causes the -
1, the support plate 21a is supported at a predetermined height.

The hydraulic circuit 22 that supplies pressure oil from the first coupling mechanism 21 to the hydraulic cylinder 20 will be explained. As shown in FIGS. When connecting the accumulator 22a consisting of a nitrogen gas cylinder and the coupling mechanism 21 to external hydraulic pressure supply means, the first coupling mechanism 2
1 is provided with a back pressure relief mechanism 26 that releases the back pressure applied to the device.

In such a hydraulic circuit 22, one of the two joints 25a and 25b, 25a, is connected to the rear ends of the two hydraulic cylinders 20 through a pipe 22d, and connects the piston rod 20a of the hydraulic cylinder 20. Pressure oil is supplied when the pipe is not pushed out, and the accumulator 22a is connected to this pipe 22d1.The other joint 25b is connected to the pipe 22d1.
e is connected to the front end of the hydraulic cylinder 20, and is configured to supply pressure oil when the piston rod 20a is not pulled back. And these two pipes 22d522
A back pressure relief mechanism 26 is connected to the branch e. Note that the reference numeral 221) in the figure is a check valve.

The back pressure relief mechanism 26 has joints 25a and 25b.
This prevents the coupling mechanism 21 from becoming unable to connect due to back pressure applied to the coupling mechanism 2.
1, the back pressure of the hydraulic circuit 22 can be easily released beforehand. To be more specific, this is 4
It is composed of two check valves 26A and 26B, a switching valve 26C, and a pressure adjustment mechanism 26D.

The pressure adjustment mechanism 26D includes a pair of cylinder devices S1 and S2 in which the tips of wood 26a are arranged opposite to each other,
These cylinder devices S1. S2 is each rod 26a
, 26a can be connected to interlock the pistons 26b, 26b of each cylinder device S1, S2.
``Press 26a'' and the fill spring 26c biases the piston 26b of the cylinder device S2 toward the atmosphere (the second side in Figure 9) by the mounting 13 spring. ing.

In addition, the piping configuration of the main components constituting this back pressure relief mechanism 26 is such that a check valve 26 is connected to the piping 22d of the joint 25a.
A first hydraulic piping 26d having A is connected, and the path of this i+I+ pressure piping 26d is further branched into two, one being a branch piping 26e having a switching valve 26C, which is connected to the hydraulic cylinder device S2. The other one is connected to the supply side of the cylinder device S1 via a branch pipe 26'', and is supplied with pressure oil to move the piston 26b downward in the figure against the biasing force of the coil spring 26c. It is now possible to do so.

On the other hand, the piping 22e of the joint 25b has a reverse JF2
A second hydraulic pipe 26g having a pressure of 6 A is connected to the tip of the connection pipe 1 or to the tip of the 411 pressure pipe 26d.

In addition, the manual lever 26 is used for switching, if' 26 C.
h is attached, and the back pressure is released by switching this lever 26h. This lever 26h is controlled by a fixed striker (not shown), which is a protruding piece provided on the conveyance path of the support frame A, on the surface to which the coupling mechanism 21 is connected. It can be switched by pressing.

Also, a check valve 2 is provided in the return pipe 26i of the cylinder device S1.
6B are provided, respectively, and the first and second hydraulic pipes 26
d, connected to 26g.

The radiet type positioning means 23 for fixing the movable ruler IO in a predetermined position has a guide track 12 on the outside of the two guide tracks 12i for the movable ruler 10, as shown in FIG. 8 and FIG. 1O.
A rack 23b for f colradiet provided parallel to i, and a fixing part for positioning and fixing the movable ruler IO by 4 degrees with claws 23c provided at both ends of the movable ruler main body 10a and engaging with the rack 23b. 23a and movable ruler I
and a positioning part 23d for setting and adjusting the position of O.
By pulling it up with e, the other end of the claw 23c is pressed against the rack 23b. A lever 23r for lifting the other end of the claw 23c from the rack 23b is supported on the shaft of the claw 23c, and a roller portion 23g is provided at the upper end of this lever 23f. By pressing the roller portion 23g downward, the lever 23r lifts the other end of the claw 23c and disengages the rack 23b from the claw 23c. The positioning portion 23d also includes a ruler 23i provided on the outside of the rack 23b and having a large number of holes 23h, 23h formed at predetermined intervals along the rack 23b, and a ruler 23i of the ruler 23i. Many holes 23h
, 23h, and a piece 23j for setting the position of the movable ruler 10.
The position of the movable ruler IO can be determined by a movable bridge portion 45 of the circulation mechanism B, which will be described later, in accordance with the position 3j.

By the way, when manufacturing wooden panels using the above-mentioned assembly support frame A, it is necessary to be able to circulate the support frame A in a lying state and to provide means for supplying hydraulic pressure to the support frame 8. It is best to use a circulation system that supports

Here, a preferred circulation mechanism of the support frame A based on this method will be explained.

As shown in FIG. 11, etc., this circulation mechanism B supplies pressurized oil to the support frame 8 to join the panel bodies P in the surface direction, and presses the panel bodies P during the curing period of the adhesive. The support frame A is kept circulating, and after the curing period is over, the hydraulic pressure is released.

Specifically, the circulation mechanism B is provided at the pressure line X that presses the support frame A, and at the lower stage of this pressure line X, and releases the pressure from the support frame. Y
The support frame A is conveyed on the clamping and releasing lines X and Y, respectively, by the support frame conveying means 3.
5, move the support frame 8 up and down between the clamping line X and the decompressing rhino Y. A panel body P (7) 10 that is movably provided
A movable bridge portion 45 having an entry portion 46 and a movable ruler moving means 47, a fixed bridge portion 50 spanning over the pressure line
A circulation mechanism side coupling mechanism (hereinafter referred to as the second coupling mechanism) 52 connected to the coupling mechanism 21 of.
52, and a panel body carrying means 55 for taking out the adhesively bonded panel body P from the support frame A and carrying it out.

The compression and decompression lines X and Y are constructed by supporting columns 32 erected at the front and rear corners of the line, and two vertical and vertical sections between these columns 32.
The frames are respectively provided on the upper and lower sides of the frame constructed based on the beams 30 and 31 that are passed across the tiers.
Guide tracks 30a, 30a for the support frame Δ are provided, guide tracks 30b, 30b for the movable bridge portion 45 are provided on the outside of the upper surface, and guide tracks 30b, 30b are provided on the upper surface of the lower vertical beam member 30. is the guide track 30 of the decompression line Y
a, 30a has been installed. Also, lf
A rack 30c is provided which meshes with a drive gear 48a (shown in FIG. 15) of the movable nose portion 45.

The support frame transport means 35 described in i+ii moves the support frame 8 up the clamping and releasing lines
5 to the other lifting means 35.

The conveyance means 35 includes a power section 36 including a motor 36a, etc., and a conveyance section 37 that conveys the support frame A using the power of the power section 36.

The conveyance section 37 is located at both ends of the lines X and Y.
ll, the gears 37a, 37a provided at the positions j of the lowering means 40a, /IOb, and the gears 37a, 37a, respectively.
chain 371] and this chain 37
The main body is a support flenometer, a traction claw 37c (shown in FIGS. 2 to 4), which hooks the clamp portion 16 of A, and is integrally attached to b. It goes without saying that the position and radius of the gear 37a are set so that the chain 37b moves at a position facing the upper and lower lines X and Y. In addition, in FIGS. 3 and 4, the reference numeral 43d indicates the compression and release lines X and Y.
The arms 16d of the clamp portion 16 are provided at both ends of the
It is a protrusion that pushes the protrusion piece 1'6g provided at the end,
By folding down the locking plate 16a, the locking plate 16a and the traction claw 37c provided on the chain 37b of the conveying section 37 can be moved.
This is to release the engagement with the

The power section 36 transmits the rotation of the motor 36a to the gear 37a of the conveying section 37 through a chain 36b.

The elevating means 40a and 40b are arranged before and after the lines X and Y, respectively, and move the support frame A to the upper and lower lines X,
The elevating means 40a on the right side of Fig. 1t is used to raise the support frame A from the lower depressurizing line)' to the upper pressing line X, and the elevating means 40a on the left side of Fig. 11 /IOb is the line which descends the support frame A from the upper pressure line X to the first pressure release line Y.

Note that the two nail lowering means 40a and 40b are structurally the same, so the lifting means 40a on the right side of FIG. 11 will be explained below, and the lifting means 40b on the left side of FIG. The explanation will be omitted.

The elevating means 40a is mainly composed of a first elevating section 41 and a second elevating section 42 provided on the left and right sides of the line X1Y.

As shown in FIGS. 13 and 14, the elevating section 4I is
Two support plates 1 provided on the side of the base of support frame A
7. The lifting arm 41a that engages with the projections 17a and 17a of 17 from the beginning is raised and lowered by a cylinder device 41b,
Specifically, there is a lifting table 43 that supports the cylinder device 41b, the lifting arm 41a, etc., a guide shaft 41c that guides the downward movement of the lifting arm 41a, and a guide for the support frame A that is stopped at the ridge 41. Placement plate 30d on which rollers 18 and 18 are placed
and a rotary moving part 44,44 that rotates and moves the mounting plate 30d so that the guide [7-ra 18] does not interfere with it when moving up and down to the support frame.

The elevating table 43 consists of a leg portion 43a and a support frame 43b supported by the leg portion 43a.
b is attached, and an elevating arm 41a is attached to the tip of this piston rod 41d. Note that the support frame 43b
A guide plate 43c (shown in FIG. 11) is provided to guide the guide shaft 41c up and down, and the guide shaft 4Sc is slidably supported. Further, racks 41h extending upward from both ends of the elevating arm 41a are inserted into both ends of the support frame 43b, and the binions 41i are inserted into the support frame 43. provided at both ends of b. The pinion 41i operates in synchronization with the movement of the cylinder device 41b, and the guide plate 43c
Together with the guide shaft 41c and the guide shaft 41c, the lifting arm 41a is prevented from tilting.

As shown in FIG. 11, etc., the rotational movement section 44 constitutes a part of the guide track 30a, and includes a mounting plate 30d on which the guide [hoop I8. It is mainly composed of a cylinder device 44C that vertically rotates freely around a rotating shaft 44b, and by raising the piston rod 44d of the cylinder device flj, 44c, it is mounted on the rotating shaft 44b as a fulcrum. Rotate the plate 30d downward and use the guide roller! 8
．． This is to prevent it from getting in the way of the elevator's vertical movement.

As shown in FIG. 11, etc., the elevating section 42 does not have a support frame A conveying chain 37b that gets in the way of elevating. It is raised and lowered by an intervening cylinder device 42b, and the guide roller 18 of the support frame A
．． With 18 on it, move it down 0 degrees.

Further, it goes without saying that the elevating section 41 and the elevating section 42 move in conjunction with each other.

As shown in FIGS. 10 and 15, the movable bridge section 45 is composed of a panel body P carrying-in section 46 and a movable ruler moving means 47. That is, the movable bridge portion 45
The panel body loading section 46 includes a panel body P loading table 46a having a size that straddles the pressing line, X, and this table 4.
6a and a guide roller 46c attached to the lower end, and a moving means 47.
is a movable ruler provided on the back side of the loading table 46a! A movable arm 47 that pushes out 0 in the transport direction of the support frame A
a, a ski-shaped suppression plate 47b that releases the ratchet type positioning means 23 when the movable ruler IO overlaps under the movable bridge part 45, and a piece 23j that also sets the position of the movable ruler IO of the positioning means 23. It is composed of a contact sensor 47c that detects the movement of the movable bridge section 47, and a drive section 48 that moves the entire movable bridge section 45.

As shown in FIG. 11, etc., the loading table 46a of the loading section 46 has a central portion 46d that can be tilted diagonally by pulling a lever 46e. is carried into the support frame 8 by sliding on a plurality of guide bars 46r extending vertically from the carrying table 46a.

The movable arm 47a is rotatably provided on the back surface of both ends of the carry-in table 46a, and is rotated downward by an electric motor with a speed reducer (not shown) and protrudes from the back surface of the carry-in table 46a. 0 A movable ruler that interferes with the protrusion Job on the top surface! 0 can be moved.

The suppression plate 47b presses downward the roller portion 23g of the lever 23f, which is provided on the back side of both ends of the loading table 46a and is pivotally supported at both ends of the movable ruler 1o.
Remove claw 23c from 3b and make a movable ruler! 0 can be moved freely.

The contact sensor 47c is provided on the back side of one end of the loading table 46a, and is located in the holes 23h and 23 of the ruler body 23i.
The movable bridge portion 45 is stopped at that position, and the movable arm 47a is rotated upward.

The drive unit 48 includes a drive gear 48a that meshes with a rack 30c provided on the upper surface of the beam 3o, a drive device 48b consisting of a motor, etc., and a drive gear 4 from the drive device 48b.
8a and a chain 48c that transmits power.

The fixed bridge portion 50 supports the second d coupling mechanism 52 of the clamping line X and also supports the piping that supplies pressure oil to the second coupling mechanism 52. The fixed bridge section 50 is made up of a hydraulic pressure supply table 50a that is large enough to straddle the pressure and release lines X and Y, and four pillars 50b that support the table 50a.

The second coupling mechanism 52,52 is connected to the first coupling mechanism 21 of the support frame A being conveyed on the clamping and releasing lines X and Y, as shown in FIG. ,
It supplies pressure oil.

Note that the two second coupling mechanisms 52, 52 of the clamping and depressurizing lines X and Y are structurally the same, so the second coupling mechanism 52 of the clamping line X will be referred to below.
The second coupling mechanism 52 of the decompression line will be designated by the same reference numeral and the description thereof will be omitted.

The second coupling mechanism 52 includes a coupling portion 52a and a supporting frame A.
and a moving device 51 that supports it movably along the conveyance direction.

As shown in FIGS. 16 and 17, the moving device 51 includes a pedestal 51a provided on the back surface of a table 50a along the conveying direction of the support frame A, and a coupling portion 52a installed on the pedestal 51a. A guide rail 51b that guides in the direction of movement to the support frame, and gears 51c and 51c provided at both ends of the pedestal 51b.
1c, 51c and the coupling part 52
It consists of a chain 51d connected to a.

The chain 51d is provided with a claw 51e that engages with the protruding plate +2h provided at the front end of the support frame A, and is configured to return the force 1 ring portion 52a to its origin by the engagement with the protruding plate +2h. It has become.

As shown in FIGS. 6 and 18, the coupling portion 52a includes a support 52b connected to a chain 51d and guided by a guide rail 51c, and a support 52b.
It consists of a cylinder device 52c fixed to a, and a connecting portion 53 that is pressed by the cylinder device i52c and connected to the first coupling mechanism 21.

The support body 52b is slidably engaged with the guide rail 51c, and the top plate 52d of the support body 52a
, two guide rails 52e are provided in parallel to guide the connecting portion 53 perpendicularly to the transport direction of the support frame A.
A cylinder device 52c is attached parallel to this guide rail 52e152e.

The piston rod 52f of the cylinder device 52c includes:
A suppressing plate 52g that presses the connecting portion 53 is provided, and two nuts 52h and 52i are screwed together.

The connecting portion 53 is connected to the female joint 25c, 2 described above.
5d, a rear support plate 53a guided by guide rails 52e and 52e to support the joints 25c and 25d, and a ring portion 25 of the joints 25c and 25d.
The FJ part support plate 53f supports the FJ part support plate 53f.

On the left and right sides of the rear support plate 53a, there are joints 25c,
Two fitting holes 53b into which the joints 25d are fitted are provided in parallel, and the locking plates 53c and 53d lock the joints 25c and 25.
d is locked.

Further, a cylinder device 5 is provided in the center of the rear support plate 53a.
An insertion hole 53e for inserting the piston rod 52f of the rear support plate 53a is provided at both left and right ends of the rear support plate 53a.
No.! The joints 25c and 25d are guided by the guide tube 21f of the coupling mechanism 2I to accurately align the joints 25a.
, 25b are provided.

As shown in FIG. 18, the front support plate 53f is supported so as to move in parallel with the rear support plate 53a by a parallel link mechanism 53h disposed above it.

The front branch plate 53 has two joints on its left and right sides.
Two fitting holes 53k into which the rings 25j and 25j of 5e and 25d are fitted are provided in parallel, and the rings 25'' of joints 25c and 25d are fitted into these fitting holes 53k, and the locking plate 5311.53n The piston rod 52 of the cylinder device 52c is locked in the center from the front and back.
An insertion hole 53o through which r is inserted is provided.

These front and rear support plates 53r153a are attached to two nuts 52h and 52i screwed onto the piston rod 52''.
It can be moved back and forth by a pressing plate 52g. That is, the piston rod 52r is inserted into the insertion holes 53o and 53e of the front and rear support plates 53r and 53a.
The rear support plate is pushed by the nut 52i and the suppression plate 52g to connect the coupling mechanism 21.52, and the front support plate 53r is pushed by the nut 52h screwed onto the front end of the piston rod 52r. pulled back,
After the rings 25j of the joints 25c and 25d are pulled back, the coupling mechanism 21.52 is separated.

Note that five limit switches LSI, LS2, LS3, and L are installed on the pedestal 51a of the moving device 51 in 01J in order from the transport direction to the support frame along the guide rail 511).
S4 and LS5 are provided, and each limit switch L
SI, LS2, LS3, LS4, and LS5 are the top plates 5 of the coupling part 52a that move along the guide rails 51b.
The switch is turned on by being pushed by the interference piece 52j at the end of 2d.

The limit switch LSI is installed so as to be turned on when the first coupling mechanism 21 being conveyed through the clamping and depressurizing lines X and Y reaches a position corresponding to the coupling part 52a. When turned on, the cylinder device 52b is actuated to advance the connecting portion 53 and connect it to the first coupling mechanism 21.

When the limit switch LS2 is turned on, the hydraulic pressure supply means 55 starts supplying the pressure 1llI to the hydraulic connection portion 53.

The limit switches L and S3 are configured to stop the supply of pressure oil from the i+I+ pressure supply means 55 when turned on.

When the limit switch L S 4 is turned on, the piston rod 52 of the Norinda device 52 b is moved backward to separate the hydraulic connection portion 53 from the first coupling mechanism 21 .

The limit switch LS5 serves to emergency stop the circulation mechanism B when the connecting portion 53 is not retracted due to some trouble when turned on.

The hydraulic pressure supply means 54, as schematically shown in FIG. 19, supplies pressure oil from an oil tank 54a to the second coupling mechanism 52 using a hydraulic pump 54b.

The piping configuration of the hydraulic pressure supply means 54 is as follows:
4[ is switchably connected from the oil tank 54a to either the joint 25c or the joint 52d via the hydraulic pump 54b, the No. 1 switching valve 54c, the check valve 54d, and the second switching valve 54e. Additionally, a return pipe 54g is switchably connected from the oil tank 54a to either the joint 25c or the joint 52d via a second switching valve 54d.

The first switching valve 54c connects the hydraulic pump 54b and the second coupling mechanism 52 at a switching section indicated by reference numeral, and releases hydraulic pressure in the supply pipe 54r at a switching section indicated by reference numeral M. It looks like this. Also,
In the second switching valve 54d, pressure oil is supplied to the joint 25c at the switching portion indicated by the symbol N, and the pressure oil is not returned from the joint 25d to the oil tank 54a, and the switching portion indicated by the symbol 0 In joint 25C
The pressure oil of 125d is returned to the oil tank 54 via the return pipe 54g.
a, and pressurized oil is supplied to the joint 25d at the switching part indicated by the symbol P, and the joint 2
Pressure oil is returned to the oil tank 54a from 5c.

Note that the line indicated by the symbol a of the first switching valve is
Closed.

Finally, the panel body carrying out means 55 constituting the circulation mechanism B will be explained. This carries out the adhesively bonded panel body P from the support frame A at the end of the decompression line Y.

20 and 21.
As shown in the figure, it is composed of one carrying out device 56 and two auxiliary carrying out devices 57 corresponding to the roller conveyor 14, each of which pushes up the roller conveyor 14 and rollers 14a, 14a of the roller conveyor 14...
- roller drive units 56a, 57a that rotate the drive units 56a, 57a; support stands 56b, 57b that support the drive units 56a, 57B; and a cylinder device 56c that pushes up the support stands 56b, 57b.

57c.

The drive units 56a, 57a are provided on the left and right sides of the carry-out device 56, 57 corresponding to the roller conveyor 14, and groove wheels 56d, 57d arranged at both ends, and these groove wheels 56d.
, 57d and transmits power to the rollers 14a, 14a..., and groove wheels 56d, 57d.
The first carrying-out device 56 further includes a groove wheel 56d.
In between, pulling wheels 56g and 56g are provided to support the V-bell 56e so as to press it against the C1-rings 14a and 14a.

Further, in the drive unit 56a of the first unloading device 56, power units 56h, 56h including a motor etc. are provided at one end of the support frame 56, and one groove wheel 56 is connected to the drive unit 56a by a chain.
The power is transmitted to d.

The upper surfaces of the support frames 56f and 57r have fitting holes 14c and 14c provided on the lower surface of the support frame of the roller conveyor.
The roller conveyor 14 is engaged with the panel body and is being carried out.
A protrusion 55a is provided for fixing the drive parts 56g and 57a to the upper surfaces thereof.

The support stand 56b of the carrying out device 56 includes driving parts 56a arranged on the left and right sides of the carrying out device W56, as shown in FIG.
These driving parts 56a, 56a are
two first beam members 561.56i that integrally support the two first beam members 561.56i, and two second straight members 56j, 56j extending along the drive parts 56a, 568 between these beam members 56i, 56i;
A connecting portion 56 provided at the center of these second beam members 56j, 5(ij) and connected to the Norinda devices 56c, 56c
It consists of k, 56 and.

The support stand 57c of the second carrying out means is connected to the auxiliary carrying out means 5.
A beam member 571.57i extends between the drive parts 57a, 57a arranged on the left and right sides of the 7 and integrally supports these drive parts 57a, 57a; It consists of connecting parts 57k, 57 connected to devices 57c, 57c.

Next, the operation of the support frame A configured as described above will be explained.

When using the support frame A for assembling wooden panels of this embodiment on the circulation mechanism B to adhesively join the panel bodies P, P, etc. in the surface direction, for example, three support frames are attached to the circulation mechanism B. 8 is circulated at equal intervals.

The circulation speed at this time is determined by the time required for adhesion of the adhesive used.

[Positioning Step of Movable Ruler] First, the support frame 8 is transferred from the lower pressure release line Y to the upper pressure line X by the elevating means 40a.

Next, as shown in FIGS. 2 to 4, the traction claws 37c of the conveyance means 35 are engaged with the clamp portions 16 to the support frame, and the support frame is moved along the clamping line X to the position of the movable bridge portion 45. Transport A.

At this time, as shown in FIG. 1θ, the lever 23f of the radiet type positioning means 23 of the support frame A is pressed by the pressing plate 47b of the movable bridge portion 45, so that
The rack 23b and the claw 23c are disengaged, while the 15th
As shown in the figure, the protrusion 10b of the movable ruler 10 is moved by the movable arm 47a that rotates and protrudes from the lower part of the movable pre-shaped portion 45.
is pushed, and as the support frame A moves, it is returned to the original position.

And the U that meets the standards of the wooden panels to be assembled in advance.
Then, when the piece 23j is set in the hole 23h of the positioning ruler 23i and the movable bridge part 45 is moved in the transport direction,
Piece 2 set in positioning part 23d of support frame A
3j is a contact sensor 47c at the bottom of the movable brittle part 45.
Since the contact is detected, the movable bridge section 45 stops.

At the same time, the end of the movable arm 47a rotates upward to set the movable ruler 10 at a predetermined position.

``Panel body loading process 1 Dowel holes are made in advance on the joint surface, adhesive is applied, and the panel body P, P... with the dowel inserted into one joint surface is slid on the upper surface of the movable bridge part 45. Carry the panel body to the loading section 46, pull the lever 46d, and move it to the loading table 46a.
is tilted, slid on the comb-shaped guide bar 46e, and placed into the support frame A, and the dowels on the joining surfaces of the panel bodies P1P are fitted together.

During this time as well, the support frame A is being transported, so that the panel bodies P, P to be joined can be put in at different positions.

[Connection of coupling mechanism and panel clamping process] When the support frame A conveyed through the clamping line The claw 51e provided on the chain 51d of the guide rail 51c is pushed to return the coupling portion 52a to its origin.

Next 1: When the end of the top plate 52d of the coupling part 52a comes into contact with the first limit switch LSI as the support frame A moves as shown in FIG.
As shown in the figure, the cylinder device 52C operates and the connecting portion 53 of the coupling portion 52a is pressed, so that the coupling mechanisms 21 and 52 are joined together.

Note that before the coupling part 52a contacts the first limit switch LSI, the lever 26h of the switching valve 26C of the hydraulic circuit 22 interferes with the cam means provided under the fixed bridge part 50, and the switch is switched and the back is turned off. The pressure relief mechanism 26 releases the back pressure of the female joints 25c and 25d, and the coupling mechanisms 21.52 are smoothly joined.

When the cup link part 52a reaches the second limit switch LS2 and turns on the second limit switch LS2 while being transported to the support frame, pressure oil is supplied from the hydraulic pressure supply means 54 to the rear end of the hydraulic cylinder 20 of the movable ruler 10, and the fifth limit switch LS2 is turned on. As shown in the figure, the hydraulic cylinder 20 is activated and the pressing portion 11 presses the panel bodies P, P toward the third ruler body +3d.

At this time, the contact plate 11b at the end of the slide shaft 11a moves to the hole 24i screwed to the support plate part 24g and presses the support plate part 24g. As a result, the support plate portion 24
g, the bolt 24h that abuts the probe 24b of the dial gauge 24m moves, and the dial gauge 248 indicates the amount of movement of the support plate portion 24g. Note that the amount of movement that can be measured with the dial gauge 24a is within a narrow range, so instead of directly connecting the slide shaft 11a and the support plate portion 24g, the support plate portion 24g is moved when the slide shaft 11a has moved a certain amount. ing.

Therefore, the value indicated by the dial gauge 24a is
This shows a part of the amount of movement of the panel, but if you take into consideration the position R17 of the movable ruler main body IOa that is locked in a predetermined position depending on the size of the panel, the dimensions of the assembled panel will be the standard. You can check whether it is within the range.

Furthermore, when the coupling portion 52a contacts the third limit switch LS3 and turns it on, the supply of pressure oil from the hydraulic pressure supply means 54 to the hydraulic cylinder 2o is stopped. At this time, the pressing part 11 continues to press the panel body P by the action of the hydraulic cylinder 20. In the embodiment, a movable ruler suppresses the panel body P! Since the pressing part 11 of 0 continues to press the panel body P by the hydraulic cylinder 20, the movable ruler! The clamping force of 0 can always be maintained constant, thereby making it possible to improve the quality of adhesion of the panel body P.

At this time, the accumulator 22! is connected to the hydraulic pipe 22d. , the pressure inside the pipe is constantly adjusted to a constant value, thereby maintaining the pressure necessary for adhesively bonding the panel body P.

Next, the coupling part 52a is connected to the fourth glue mitt switch L.
When S4 is contacted and turned on, the cylinder device 52c is activated, causing the front support plate portion 53f of the coupling portion 52a to be retracted by the nut 52h screwed onto the front end of the piston rod 52f, and the coupling mechanism 2+ , 5
Separate 2.

Note that the coupling portion 52a reaches the position of the fifth limit switch LS5 as it moves toward the support frame, but since this switch LS5 is for emergency use, if the coupling mechanisms 21 and 52 are separated from each other, will not operate.

That is, in this case, in the unlikely event that the coupling mechanism 21.52
When the fifth limit switch LS5 reaches the position of the fifth limit switch LS5 without being separated, the coupling portion 528 contacts the fifth limit switch LS5 and turns it on, causing an emergency stop of the entire device and preventing damage to the equipment. It is.

``When the support frame A reaches the end of the pressure line X during the transfer process to the decompression line,
The locking plate 1 of the clamp section 16 (as ia rotates, the traction claw 37c of the conveying section 37 comes off from the locking plate 16a, and the chain 371) is operated, and in this state, the support frame A is moved up and down by the lifting means 401). stop on top.

Next, as shown in FIGS. 13 and 14, the elevating means 4
0b is activated and the support frame A is transferred to the decompression line Y. In this case, first, the rotational movement part 44 of the first lifting part 4I is activated to rotate the mounting plate 30d to remove the interference of the guide rollers 18, 18 of the support frame A, and then the support The elevating arm 41a of the first elevating section 4I that is engaged with the support plate 17 of the frame A is lowered, and the elevating plate 30e of the second elevating section 42 is lowered.

[Coupling mechanism connection and depressurization process co-depressurization line
The support frame A is sent to the panel unloading means 55 by the conveyance means 35, but during the conveyance, the support frame A is connected to the second coupling mechanism 52, and in the case of clamping. On the other hand, pressure oil is supplied, and the piston rod 20a of the hydraulic cylinder 20 moves back, completing the pressing of the panel body P.

[Panel body unloading process] The support frame A whose movable ruler has been decompressed is transported to the unloading means 50 at the end of the depressurizing line Y.

In this unloading process, as shown in FIG.
while pushing up the roller 14 of the roller conveyor 14.
a, 14a... are rotated, and the adhesively bonded panel bodies PSP... are carried out.

Then, the empty support frame A is lifted up and down by the lifting means 40a.
As in the case of the elevating means 40b, the material is transferred to the clamping line X and circulated again to the first step.

In this way, in the support frame A for assembling wooden panels according to this embodiment, a plurality of rectangular panels are assembled by the pressing part 11 operated by the hydraulic cylinder 20 of the fixed ruler 13 and the movable ruler 10. Since the panel bodies P can be held in a state where they are joined in the surface direction, and these can be integrated, it is possible to mechanize the joining work between the panel bodies P and P, thereby improving their quality. It has a invasive effect, such as being able to. Further, in the embodiment, there is an effect that a certain amount of compaction and a perfect rectangular shape can be obtained.

Note that the structural members shown in the curved embodiments are merely examples, and it goes without saying that they can be changed as appropriate depending on design requirements and the like.

"Effects of the Invention" As explained above, according to the panel dimension checking device for a support frame for wooden panel assembly according to the present invention, the main body of the movable ruler includes a measuring mechanism that is linked to the movement of the pressing part;
A dial gauge whose pointer is moved by the measuring mechanism is provided, and the measuring mechanism includes a slide shaft having one end fixed to the pressing part, and a shaft part provided so as to be movable back and forth parallel to the slide shaft. It includes a support plate fixed to one end of the shaft, bolts screwed to both left and right ends of the support plate, and biasing means for biasing the shaft toward the dial gauge side. , and because the support plate portion is moved when the measuring tip of the dial gauge comes into contact with the tip of one of the bolts, the following excellent effects can be achieved.

(a) By checking the value indicated by the dial gauge when the panel body is pressed by the pressing part of the movable ruler,
It is possible to easily check whether the dimensions of the panel assembled with the support frame are within the specifications.

(b) When mechanizing the manufacturing process of a large panel formed by joining a plurality of panel bodies, it is possible to easily manage the dimensions of the panel, thereby stabilizing the quality.

[Brief explanation of drawings]

1 to 21 show an example of a support frame for assembling wooden panels according to the present invention, in which FIG. 1 is a perspective view of the support frame, and FIG. 2 is a main part of the clamp part. 3 and 4 are perspective views, FIG. 5 is a plan view of the area around the dial gauge of the movable ruler, and FIG. 6 is a plan view of the first and second coupling mechanisms facing each other. 7 is a plan view of the first and second coupling mechanisms in a connected state, and FIG. 8 is a plan view of the movable ruler -b 1.1
Fig. 9 is a schematic diagram showing the piping groove of the hydraulic piping, Fig. 10 is a perspective view of the main part of the movable ruler passing through the movable bridge and l') part, Fig. 11 The figure is a perspective view of the wooden panel assembly device, FIG. 12 is a plan view of the wooden panel assembly device, FIGS. 13 and 14 are side views of the first elevating part of the elevating means, and FIG. 15 is a movable bridge. A perspective view of the main parts on the back side of the section,
16 and 17 are side views of the second coupling mechanism, FIG. 18 is a perspective view of the main parts of the second coupling mechanism, FIG. 19 is a schematic diagram showing the piping configuration of the hydraulic pressure supply means, and FIG.
The figure is a side view of the panel body carrying out means, FIG. 21 is a side view of the main part of the panel body carrying out means, and FIGS. 22 to 25 are perspective views showing the construction process of a building shown to explain the prior art, respectively. It is. Support frame 1, ... ... A, Panel body ... ... 1), Rotating section ruler ...... 10, Movable ruler body ... ... loa press ■ 1 part・・・
・ ・ 11, Slide axis... Ila,
Base part... I2, fixed ruler... 1
3. Measuring mechanism... 24. Dial gauge
...24a.

Claims (1)

[Claims] A plurality of rectangular panel bodies each having face plates attached to both sides of a rectangular frame-shaped frame are adhesively bonded in the surface direction of the base on which the panel bodies are placed. An assembly support frame in which the panel body is sandwiched between a fixed ruler and a movable ruler of a base part and the entire panel body is pressed by a pressing part provided on the front side of the movable ruler main body part, The main body of the movable ruler is provided with a measuring mechanism linked to the movement of the pressing part and a dial gauge operated by the measuring mechanism, and the measuring mechanism includes a slide shaft having one end fixed to the pressing part, A shaft part provided to be movable back and forth parallel to this slide shaft, a support plate part fixed to one end of this shaft part, bolts screwed to both left and right ends of this support plate part, and a shaft part. a biasing means for biasing toward the dial gauge side, and a measuring point of the dial gauge is in contact with the tip of the one bolt, and
A panel dimension checking device for a support frame for assembling a wooden panel, characterized in that the other bolt moves the support plate portion as the slide shaft moves.