JPH09268735A - Connection structure of plaster particle board and its connection method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To firmly joint plaster particle boards to each other as an interior material while keeping airtightness. SOLUTION: A reinforcing board 2 is put in an insertion groove 1a of which surface is formed as the basic face, in the side end of a pair of plaster particle boards 1. A pair of plaster particle boards 1 are connected with a certain distance between the side end faces and then the reinforcing board 2 is fixed to the substrate material B. Thereafter, fluid hemihydrate gypsum is charged in a space formed by the side end faces of a pair of plaster particle boards 1 and the substrate material B. After the hemihydrate gypsum has changed to gypsum G and it has cured, the cured gypsum G is ground to be flush with the surface of the plaster particle boards 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gypsum particle board bonding structure suitable for flooring materials, interior materials such as walls or ceilings, and a bonding method thereof.

[0002]

2. Description of the Related Art In general, as a floor material, an interior material such as a wall or a ceiling, wood, particle board in which wood chips are formed into a plate shape with an adhesive, or gypsum board in which fibers are mixed as a reinforcing material is adopted. Has been done.

In order to join these interior materials I, as shown in FIG. 7, side end faces of a pair of adjoining interior materials I are butted against each other and nailed to a base material B such as an inner wall frame, joist or lower bar. I fix it by driving a screw. In this case, the dimensional accuracy of the interior material I is not so high, and as a result, a slight gap is generated between the side end surfaces of the interior material I. Therefore, a filling material J such as putty is embedded in the gap and the surface is removed by a sander. It is processed to be smooth. Further, as shown in FIG. 8, a tongue t is formed at the side end of one interior material I, and a groove r that can be fitted to the tongue t is formed at the side end of the other interior material I, respectively. It has also been attempted to join.

[0004]

However, in the above-mentioned butt-joining of interior materials, since the gap is small, the filling amount of putty and the like is small, and the gap is not sufficiently filled, so that the drying shrinkage is large and the airtightness is high. Cannot be secured. Further, in the case of tongue joint, although it is possible to ensure a relatively airtight, when the plate thickness of the interior material is different, one interior material is joined in a floating state, so fixing is not reliable, The bending becomes large, and when it is used as a floor material, for example, it causes floor noise. In particular, when wood is used as the interior material, the wood shrinks due to drying, so that the gap expands.

The present invention has been made in view of the above problems, and a gypsum particle board bonding structure capable of firmly bonding a pair of gypsum particle boards as an interior material while ensuring airtightness. And a method for joining gypsum particleboards that can firmly join a pair of gypsum particleboards as an interior material while ensuring airtightness.

[0006]

According to a first aspect of the present invention, there is provided a gypsum particle board joint structure in which a side surface is formed with an insertion groove having a surface as a reference plane, and the side end surfaces are arranged at regular intervals. A pair of gypsum particle boards
Consists of a reinforcing plate fixed to the base material while joining a pair of gypsum particle boards by being inserted into the insertion grooves of these gypsum particle boards, and formed by the side end surface of the pair of adjacent gypsum particle boards and the base material. It is characterized in that a pair of adjoining gypsum particle boards are joined flush with their surfaces through the plaster filled in the space.

According to a second aspect of the present invention, in the gypsum particle board bonding structure, a pair of insertion grooves are formed at the side ends with the surface as a reference plane, and the side end faces are arranged at regular intervals. Gypsum particle boards, reinforcing plates that are inserted into the insertion grooves of these gypsum particle boards to join the pair of gypsum particle boards, and the tips of the left and right bent pieces contact the back surfaces of the pair of gypsum particle boards, respectively. And a plurality of wedges inserted at intervals in the uneven part formed between the receiving plate fixed to the base material together with the reinforcing plate and the receiving plate and the back surface of one plaster particle board. And consisting of a pair of gypsum particles adjacent to each other through the plaster filled in the space formed by the side end surfaces of the pair of adjacent gypsum particle boards and the receiving plate. Is characterized in that the over-de bonded to their surfaces flush.

Further, in the gypsum particle board joint structure according to claim 3 of the present invention, a pair of insertion grooves having the surface as a reference surface are formed at the side ends, and the side end faces are arranged at a constant interval. Gypsum particle boards, reinforcing plates that are inserted into the insertion grooves of these gypsum particle boards to join the pair of gypsum particle boards, and the tips of the left and right bent pieces contact the back surfaces of the pair of gypsum particle boards, respectively. And a receiving plate connected together with the reinforcing plate, consisting of a pair of gypsum particles that are adjacent to each other through the gypsum filled in the space formed by the side end surface and the receiving plate of a pair of adjacent gypsum particle boards. It is characterized by joining the boards flush with their surfaces.

On the other hand, in the method for joining gypsum particle boards according to a fourth aspect of the present invention, a reinforcing plate is inserted into the insertion grooves formed at the side ends of a pair of adjoining gypsum particle boards with the surface as a reference surface, After joining a pair of gypsum particle boards at a fixed interval between the side end faces of
Fix the reinforcing material to the base material, then fill the space formed by the side surface of the pair of adjacent gypsum particle boards and the base material with fluid hemihydrate gypsum, and the hemihydrate gypsum changes to gypsum and hardens. After that, the hardened gypsum is ground flush with the surfaces of a pair of adjacent gypsum particle boards.

According to a fifth aspect of the present invention, in the method for joining gypsum particle boards, a reinforcing plate is fitted into an insertion groove formed on the side edges of a pair of adjacent gypsum particle boards with the surface as a reference surface, After joining a pair of gypsum particle boards at a fixed interval between the side end faces of
The back plate of the pair of plaster particle boards is fixed to the base material together with the reinforcing plate so that the tips of the left and right bent pieces contact each other, and further formed on one of the plaster particle board and the back plate. Insert a plurality of wedges at intervals in the unplanned part, then fill the space formed by the side end surfaces of the pair of adjacent gypsum particle boards and the receiving plate with fluid hemihydrate gypsum, After the water gypsum is changed to gypsum and hardened, the hardened gypsum is ground flush with the surface of a pair of adjacent gypsum particle boards.

Further, in the method for joining gypsum particle boards according to claim 6 of the present invention, a reinforcing plate is fitted into an insertion groove formed with the surface as a reference surface at the side ends of a pair of adjacent gypsum particle boards, After joining a pair of gypsum particle boards at regular intervals between the side end surfaces of the, the receiving plate and the reinforcing plate arranged so that the tips of the left and right bent pieces contact the back surfaces of the pair of gypsum particle boards, respectively. , And then filled with fluid hemihydrate gypsum in the space formed by the side edges of the pair of adjacent gypsum particle boards and the receiving plate, and the hemihydrate gypsum changed to gypsum and hardened, and then cured The gypsum is ground flush with the surfaces of a pair of adjacent gypsum particle boards.

[0012]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 and FIG. 2 show an embodiment of a joining structure for interior materials according to the present invention.
A gypsum particle board 1 as an interior material in which side end surfaces are arranged at a constant interval on a base material B such as an inner wall frame, joists or lower crosspieces, and insertion grooves 1a whose surface is a reference surface is formed at the side ends. , A pair of adjoining gypsum particle boards 1 are inserted into their insertion grooves 1a to be joined together, and a reinforcing plate 2 fixed to the base material B via screws.
And a gypsum (dihydrate gypsum) G formed flush with the surface of a pair of adjacent gypsum particle boards 1 while embedding the reinforcing plate 2.

As shown in FIG. 3, the gypsum particle board 1 has a gypsum layer 11 composed of gypsum (dihydrate gypsum) G on the surface.
A wood chip layer 1 in which the crushed wood chips are formed and the core layer inclines in order from the large crushed wood chips C to the small crushed wood chips C toward the surface layer.
2 is formed.

The gypsum particle board 1 has a high-density gypsum layer 11 formed on the surface thereof, so that it has less expansion and contraction compared to wood and particle board, and has excellent dimensional stability and also excellent fire resistance. There are advantages.
That is, the temperature does not exceed 100 ° C. until the water of crystallization contained in the gypsum (dihydrate gypsum) G is dehydrated, and a certain time can be secured before firing. In addition, since the wood piece layer 12 that is light and has high rigidity and strength is formed on the core layer, it has a lower specific gravity and a higher strength as compared with the gypsum board, and also has a high nail holding force, and is subjected to on-site processing and construction. In addition to being excellent in heat insulation and sound insulation.

Further, the reinforcing plate 2 is to be inserted into the insertion groove 1a formed at the side end of the gypsum particle board 1 to join the pair of gypsum particle boards 1, and to make a fluid hemihydrate gypsum described later. Multiple holes for passing 2
a and a plurality of small holes 2b for inserting screws are formed at intervals (see FIG. 2). As the reinforcing plate 2, a rustproof steel plate having a thickness of 2 to 3 mm and a width of about 30 to 50 mm is adopted, and the vertical dimension is appropriately set according to the position of use.

Next, the case of joining a pair of gypsum particle boards 1 will be described. First, the insertion grooves 1a formed at the side ends of the pair of gypsum particle boards 1 will be described.
After inserting the reinforcing plate 2 into the above, and connecting these gypsum particle boards 1 with an interval of about 5 to 10 mm between their side end surfaces, screws are driven through the small holes 2b of the reinforcing plate 2 to set the reinforcing plate 2 as a base. Fix to material B. Next, a space formed by the side end surfaces of the pair of gypsum particle boards 1 and the base material B is filled with fluid hemihydrate gypsum obtained by adding more water than crystallized water to hemihydrate gypsum, Reinforcement plate 2
Buried. This fluid hemihydrate gypsum has holes 2 in the reinforcing plate 2.
It can also go around to the back side through a, and
By forming a sufficient space between the side end surfaces of the pair of gypsum particle boards 1, the entire space formed by the side end surfaces of the pair of gypsum particle board 1 and the base material B is filled. Then, the fluid hemihydrate gypsum changes into gypsum (dihydrate gypsum) G without taking in the excess water and causing volumetric shrinkage during drying, and at this time, while being integrated with the gypsum particle board 1. Harden. After the gypsum (dihydrate gypsum) G is formed in this manner, the surplus plaster (dihydrate gypsum) G is ground by a sander so as to be flush with the surfaces of the pair of adjacent gypsum particle boards 1.

As a result, a pair of adjacent gypsum particle boards 1 can be firmly and easily joined while ensuring airtightness. That is, the fluid hemihydrate gypsum filled in the entire space formed by the side end surfaces of the pair of gypsum particle boards 1 and 1 and the base material B is integrally combined with the gypsum particle board 1 without causing volume shrinkage. Since it changes to gypsum (dihydrate gypsum) G while it is being joined, the pair of gypsum particle boards 1 can be firmly bonded while ensuring airtightness. In addition, after preparing the gypsum particle board 1 and the reinforcing plate 2 in which the insertion groove 1a is formed in advance, the gypsum particle board 1 is joined by the reinforcing plate 2 and arranged on the base plate B, and then the fluid hemihydrate gypsum is filled. The pair of gypsum particle boards 1 can be joined by a simple operation.

Since a pair of adjoining gypsum particle boards 1 are arranged at a constant interval between their side end faces, a smooth finish of about 0.5 mm is barely noticeable. be able to.

Therefore, by adopting such a joint structure, it is possible to surely prevent the inflow and outflow of air, and to construct a highly airtight house in which the cooling and heating efficiency is dramatically improved.

Further, when a sizing agent or resin is mixed in the gypsum (dihydrate gypsum) G, the sizing agent or resin described above diffuses in a three-dimensional network at the crystal boundaries of the gypsum (dihydrate gypsum) G. Thus, it is possible to suppress the strength deterioration of the gypsum (dihydrate gypsum) G due to the infiltration of water, and further improve the strength. Specifically, a sizing agent corresponding to 0.1 to 4% of hemihydrate gypsum, for example, paraffin emulsion is added to water added to hemihydrate gypsum, or 0.5 to 10 of hemihydrate gypsum.
% Water-soluble EVA (ethylene / vinyl acetate copolymer), PAE (polyacrylic acid ester) and SBR
By adding (styrene / butadiene rubber), the strength can be increased while suppressing the cost increase. In this case, the paraffin emulsion having smaller particles has good dispersibility and can suppress the strength reduction with a small addition amount, and the resin is preferably SBR from the viewpoint of water resistance.

By the way, in the above-described embodiment,
When there is no unevenness between the pair of gypsum particle boards 1 and 1, or because the pair of adjacent gypsum particle boards 1 and 1 are arranged at a constant interval between the side end faces, the unevenness is hardly noticeable. Although the joint structure in the case has been described, the joint can be made even if there is some unevenness. Below is the joint structure when there is some unevenness.
It will be described based on.

In this joint structure, the gypsum particle board 1 having the insertion grooves 1a formed therein and the side end surfaces thereof arranged at regular intervals, and the pair of adjacent gypsum particle boards 1 are fitted into the insertion grooves 1a. The reinforcing plate 2 that is connected by doing so, the receiving plate 3 that is disposed over the back surfaces of the pair of adjacent gypsum particle boards 1 and is fixed to the base material B via screws with the above-mentioned reinforcing plate 2, and one gypsum particle Consists of a plurality of wedges 4 inserted in the uneven portion of the board 1 and gypsum (dihydrate gypsum) G formed flush with the surface of a pair of adjacent gypsum particle boards 1 while embedding the reinforcing plate 2. Has been done.

Since the gypsum particle board 1, the reinforcing plate 2, and the gypsum (dihydrate gypsum) G are the same as those in the above-mentioned embodiment, the description thereof will be omitted.

The receiving plate 3 is formed of a thin plate plastic or a rust preventive steel plate and has a bent piece 31 at both end edges and is formed into a substantially U shape. Due to the elasticity of the receiving plate 3, the tip of the bent piece 31 is in contact with the back surface of the pair of adjacent gypsum particle boards 1. Therefore, when the fluid hemihydrate gypsum filled between the side end surfaces of the pair of adjoining gypsum particle boards 1 penetrates into the back surface side of the gypsum particle board 1 through the uneven portion, the receiving plate 3 is bent. The piece 31 is designed to prevent further penetration. This backing plate 3 has a thickness of 0.3.
.About.0.7 mm, the width is 100 to 150 mm, the height of the bent piece 31 is about 2 to 5 mm, and the vertical dimension is appropriately set according to the use position.

If the plaster particle board 1 is uneven, the wedge 4 is used for the plaster particle board 1.
And the gypsum particle board 1 which is inserted into the non-planar portion formed between the base plate 4 and the receiving plate 3 disposed on the base material 4 and is adjacent thereto.
Are adjusted so that they are at the same surface height position.
The wedge 4 is adapted to be inserted into the uneven portion through the hole 2a of the reinforcing plate 2.

In this joint structure, first, the reinforcing plate 2 is fitted into the insertion groove 1a formed at the side end of the pair of adjacent gypsum particle boards 1, and the gypsum particle board 1 is placed between the side end surfaces thereof by 5 to 5. After continuing at intervals of about 10 mm, screws are driven into the reinforcing plate 2 through the small holes 2b to fix the reinforcing plate 2 together with the receiving plate 3 arranged on the base material B. Then, the space formed by the side end surfaces of the pair of gypsum particle boards 1 and the receiving plate 3 is filled with fluid hemihydrate gypsum, and the reinforcing plate 2 is embedded. This fluid hemihydrate gypsum can also wrap around to the back side through the hole 2a of the reinforcing plate 2, and since a sufficient space is formed between the side end surfaces of the pair of gypsum particle boards 1, The entire space formed by the side end surface of the gypsum particle board 1 and the receiving plate 3 is filled. At this time, the fluid hemihydrate gypsum also penetrates into the back surface side of the gypsum particle board 1 through the uneven portion, but the tip of the bent piece 31 of the receiving plate 3 is in contact with the back surface of the gypsum particle board 1. This prevents further infiltration. Then, the fluid hemihydrate gypsum is converted into gypsum (dihydrate gypsum) G while being combined with the gypsum particle board 1 without taking in the excess water and causing volumetric shrinkage during drying, and hardens.
After the gypsum (dihydrate gypsum) G is hardened, the surplus plaster (dihydrate gypsum) G is ground by a sander so as to be flush with the surfaces of the pair of adjacent gypsum particle boards 1.

As a result, a pair of adjoining gypsum particle boards 1 can be firmly and easily joined while adjusting the unevenness while ensuring the airtightness. That is, the side end surfaces of the pair of gypsum particle boards 1 and the receiving plate 3
Since the fluid hemihydrate gypsum filled in the entire space formed in 1 changes into gypsum (dihydrate gypsum) G while integrally bonding with the gypsum particle board 1 without causing volume contraction, The gypsum particle board 1 can be firmly joined while ensuring airtightness and easily. Then, the pair of adjoining gypsum particle boards 1 has its unevenness adjusted by the wedges 4 and gypsum is filled in the uneven parts, so that the surfaces of both plaster particle boards 1 are made flush with each other. At the same time, the gypsum particle board 1 can be finished, and the gypsum particle board 1 is prevented from floating due to unevenness, so that the gypsum particle board 1 can be securely fixed by suppressing the occurrence of bending.

In these embodiments, the case where a pair of adjoining gypsum particle boards 1 are joined on a plane has been described, but as shown in FIG. 5, they can be joined in an orthogonal state such as a corner portion. . in this case,
The reinforcing plate 2 and the receiving plate 3 may be bent at a right angle according to the positions where they are arranged. Of course, if there is no uneven portion or if the unevenness is small, the backing plate 3
And it is not necessary to use wedge 4.

When the base material B does not exist at the joint between the pair of adjacent gypsum particle boards 1, although not shown in detail, the receiving plate 3 is provided on the back side of the pair of adjacent gypsum particle boards 1. After arranging and integrally connecting the receiving plate 3 and the reinforcing plate 2 with screws, the side end surfaces of the pair of gypsum particle boards 1 and the receiving plate 3
The space formed by is filled with fluid hemihydrate gypsum. Then, the fluid hemihydrate gypsum changes into gypsum (dihydrate gypsum) G while being integrally bonded to the gypsum particle board 1, and when hardened, becomes flush with the surfaces of the pair of adjacent gypsum particle boards 1. Excess gypsum (dihydrate gypsum) G may be ground with a sander so that At this time, in order to prevent the receiving plate 3 from being deformed, it is sufficient to drive the screw at a high speed, and when there is unevenness, the wedge 4 is inserted in the same manner.

By the way, the plaster particle board 1 described above has a plaster layer 11 made of plaster (dihydrate plaster) G on the surface layer.
A wood chip layer 1 in which the crushed wood chips are formed and the core layer inclines in order from the large crushed wood chips C to the small crushed wood chips C toward the surface layer.
2 is formed, but a gypsum particle board 1'as shown in FIG. 6 can also be adopted.

This gypsum particle board 1'is a particle board 13 having a low specific gravity (0.3 to 0.5 g / cm ³ ) as a core layer, and this low specific gravity particle board 13
Gypsum layer 11 composed of gypsum dihydrate G laminated on both front and back surfaces
And the impregnated layer 14 of gypsum dihydrate G is formed near the front and back surfaces of the low specific gravity particle board 13.

Also in this gypsum particle board 1 ', since the high-density gypsum layer 11 is laminated on both front and back surfaces, the expansion and contraction are small and the dimensional stability is excellent.
In addition to being excellent in fire resistance, it has a low specific gravity particle board 13 that is light in the core layer and has high rigidity, so it has low specific gravity and high strength, and also has high nail holding power, making it suitable for on-site processing and construction. In addition to being excellent, it also has good heat insulation and sound insulation.

[0034]

As described above, according to the first aspect of the present invention, a pair of gypsum particle boards can be firmly bonded while ensuring airtightness.

According to the second aspect of the present invention, even when the pair of gypsum particle boards has an unevenness, the unevenness is adjusted and the pair of gypsum particle boards which are adjacent to each other while suppressing the occurrence of flexure The airtightness can be secured and they can be joined firmly.

Further, according to the third aspect of the invention, even when there is no base material at the joint portion of the pair of gypsum particle boards, the pair of adjacent gypsum particle boards are firmly joined while ensuring airtightness. be able to.

On the other hand, according to the fourth aspect of the invention, the pair of gypsum particle boards can be easily joined firmly while ensuring the airtightness.

Further, according to the invention of claim 5, even when the pair of gypsum particle boards has unevenness, the unevenness is adjusted and the occurrence of bending is suppressed firmly and the airtightness is improved. Therefore, a pair of gypsum particle boards can be easily joined.

Further, according to the invention of claim 6, even when there is no base material at the joint between a pair of adjacent gypsum particleboards, the pair of gypsum particleboards is firmly and airtightly secured. Can be easily joined.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a first embodiment of a gypsum particle board bonding structure of the present invention.

FIG. 2 is a perspective view showing a joint structure of the gypsum particle board of FIG. 1 with a part thereof omitted.

FIG. 3 is a cross-sectional view illustrating the gypsum particle board of FIG.

FIG. 4 is a cross-sectional view showing a second embodiment of the gypsum particle board bonding structure of the present invention.

5 is a cross-sectional view showing a modified example of the joint structure of the gypsum particle board of FIG.

FIG. 6 is a cross-sectional view illustrating another gypsum particle board.

FIG. 7 is a cross-sectional view showing a conventional joining structure of interior materials.

FIG. 8 is a cross-sectional view showing another conventional joining structure of interior materials.

[Explanation of symbols]

 1,1 'Gypsum particle board 1a Insertion groove 11 Gypsum layer 12 Wood piece layer 13 Low density particle board 14 Impregnation layer 2 Reinforcing plate 3 Receiving plate 31 Bending piece 4 Wedge G Gypsum (dihydrate gypsum) B Base material

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display area E04F 15/14 9232-2E E04F 15/14

Claims (6)

[Claims] 1. A pair of gypsum particle boards in which insertion grooves having a surface as a reference surface are formed at the side ends and arranged at regular intervals between the side end surfaces, and the insertion grooves are inserted into the insertion grooves of these gypsum particle boards. A pair of gypsum particle boards are spliced together, and consisting of a reinforcing plate fixed to the base material, and through the gypsum filled in the space formed by the side end surfaces and the base material of a pair of adjacent gypsum particle boards. A joint structure of gypsum particle boards, characterized in that a pair of adjacent gypsum particle boards are joined flush with their surfaces. 2. A pair of gypsum particle boards having insertion grooves whose front surface is a reference surface and having a constant interval between the side end surfaces, and insertion insertion grooves of these gypsum particle boards. And a reinforcing plate that joins the pair of gypsum particle boards, and a backing plate that is arranged so that the tips of the left and right bent pieces contact the back surfaces of the pair of gypsum particle boards, respectively, and is fixed to the base material together with the reinforcing plate. And a plurality of wedges that are inserted at intervals in the uneven portion formed between the backing plate and the back surface of the one gypsum particle board, and the side end surfaces of a pair of adjacent gypsum particle boards and A plaster party characterized in that a pair of adjoining gypsum particle boards are joined flush with their surfaces through plaster filled in the space formed by the receiving plate. Curl board joint structure. 3. A pair of gypsum particle boards having insertion grooves whose front surface is a reference surface and having a fixed interval between the side end surfaces, and insertion insertion grooves of these gypsum particle boards. From the reinforcing plate that is joined to the pair of gypsum particle boards, and the receiving plates that are arranged so that the tips of the left and right bent pieces contact the back surfaces of the pair of gypsum particle boards, respectively, and that are connected together with the reinforcing plate. It is characterized in that a pair of adjacent gypsum particle boards are joined flush with their surfaces through the gypsum filled in the space formed by the side end surfaces of the pair of adjacent gypsum particle boards and the receiving plate. Joint structure of gypsum particle board. 4. A reinforcing plate is inserted into an insertion groove formed with the surface as a reference surface at the side ends of a pair of adjacent gypsum particle boards, and the pair of gypsum particle boards are fixed at a constant interval between the side end surfaces. After continuing, fix the reinforcing plate to the base material, and then fill the space formed by the side surfaces of the adjacent pair of gypsum particle boards and the base material with fluid hemihydrate gypsum, and the hemihydrate gypsum is converted to gypsum. A method for joining gypsum particle boards, which comprises changing and hardening, and then grinding the hardened gypsum flush with the surfaces of a pair of adjacent gypsum particle boards. 5. A reinforcing plate is inserted into an insertion groove formed by using the surface as a reference surface at the side ends of a pair of adjacent gypsum particle boards, and the pair of gypsum particle boards are formed at a constant interval between the side end surfaces. After continuing, fix the backing plate that is arranged so that the tips of the left and right bent pieces contact the back surface of the pair of gypsum particle boards together with the reinforcing plate to the base material, and further fix the one gypsum particle board and the receiving board. Insert a plurality of wedges at intervals in the unplanned part formed on the plate, and then add fluid hemihydrate gypsum to the space formed by the side end faces of the pair of adjacent gypsum particle boards and the receiving plate. A gypsum particle board characterized in that after filling, the hemihydrate gypsum is converted to gypsum and hardened, the hardened gypsum is ground flush with the surface of a pair of adjacent gypsum particle boards. How to join the do. 6. A reinforcing plate is inserted into an insertion groove formed on the side edges of a pair of adjoining gypsum particle boards with the surface as a reference surface, and the pair of gypsum particle boards are formed at a constant interval between the side edge surfaces. After joining, the back plate of the pair of plaster particle boards is connected to the backing plate and the reinforcing plate arranged so that the tips of the left and right bent pieces contact each other, and then the side of the pair of adjacent plaster particle boards. The space formed by the end face and the receiving plate is filled with fluid hemihydrate gypsum, and after the hemihydrate gypsum changes to gypsum and hardens, the hardened gypsum is flush with the surface of a pair of adjacent gypsum particle boards. A method for joining gypsum particle boards, which comprises grinding.