CN210918210U

CN210918210U - Wood frame receiving plate

Info

Publication number: CN210918210U
Application number: CN201920605943.5U
Authority: CN
Inventors: 陈永德; 叶健
Original assignee: Zhejiang Zhongyi Building Material Technology Co ltd
Current assignee: Zhejiang Zhongyi Building Material Technology Co ltd
Priority date: 2019-02-15
Filing date: 2019-04-29
Publication date: 2020-07-03
Anticipated expiration: 2029-04-29
Also published as: CN109972837A; CN111576854A; CN110388047A; CN210798275U; CN110206296A; CN211369520U; CN210289114U; CN110206295A; CN110158947A; CN110080519A; CN211369521U

Abstract

The utility model relates to a concrete placement template technical field among the building engineering, specifically speaking relates to a board is accepted to wooden frame, including wooden class rectangle plate, this plate is including being used for with concreting contact the front and with the front relative back, do not transversely fix at the last position at the plate back and lower extreme and be provided with first pole and second pole, first pole upside is equipped with first joint portion, second pole downside is equipped with the second joint portion, the second boss is close to plate one side or keeps away from plate one side. When second pole lower extreme sets up the second boss, the wall body solidifies after concrete placement finishes, because the second boss only produces the restriction to a direction of concatenation department, and then conveniently dismantles earlier this template of accepting the board or splicing with it, therefore the second boss has solved especially to the wooden frame template in the wall, the problem that can't be dismantled after floor and wall body solidify, simple structure has improved the availability factor of wooden frame template in the wall greatly moreover.

Description

Wood frame receiving plate

Technical Field

The utility model relates to a concrete placement template technical field among the building engineering, specifically speaking relates to a board is accepted to wooden frame.

Background

The common templates in the cast-in-place concrete structure in the prior building field comprise a steel aluminum template and a traditional wood template, and the two templates respectively have advantages and disadvantages.

The steel-aluminum template has the advantages of high strength, tight assembly, difficult deformation, rigid external corner and the like, but is greatly limited in application due to the defects of heavy weight, high cost, small correction space and the like. The traditional wood formwork is flexibly assembled and assembled in site processing and building, is convenient to correct, is low in cost, is widely applied when the requirement for the construction period is low and the labor cost is low, but can be continuously compressed along with the continuous increase of labor cost and the continuous reduction of the construction period, so that the traditional wood formwork is complex in formwork and low in construction efficiency and cannot meet the construction requirement more and more.

Therefore, the cast-in-place concrete wall template is built through the wood frame template, the effects of high assembling speed, low cost and high reuse rate can be achieved, and the bearing template of the upper standard template and the lower standard template needs to be borne when the wood frame template is built, so that the turnover rate of the template in the assembling process is improved, and the fixing cost of the template is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a plank frame accepts board to should accept the board under the prerequisite that material cost is low, can make in the processing factory district and accomplish, then at the scene quick, convenient dress both ends about the plank frame template of piecing together, make the plank frame template can early tear open, be used for assembling of upper strata template.

The purpose of the utility model is realized through the following technical scheme:

according to the utility model discloses a board is accepted to wooden frame, including wooden class rectangle plate, this plate is including being used for with concreting contact the front and with the front relative back, at the last position at the plate back and the lower extreme do not transversely fixed be provided with first pole and second pole, first pole upside is equipped with first joint portion, second pole downside is equipped with the second joint portion, the second boss is close to plate one side or keeps away from plate one side.

Preferably, the first combining part is provided with a slot or a projection or a boss,

preferably, the cross section of the slot or the lug is trapezoidal or tooth-shaped.

Preferably, the boss is located on a side of the first bar adjacent the plate.

Preferably, the second boss is located at one side close to the plate, a joint surface parallel to the plate is arranged at the opposite side of the second boss and the plate, and the joint surface is abutted to the matched template.

Preferably, the second bar is provided with a supporting plate device, the supporting plate device comprises a supporting plate seat fixed on the second bar or fixed on a supporting strip arranged between the first bar and the second bar, the supporting plate seat is connected with a top rod protruding out of the lower end of the second bar and arranged opposite to the second boss, and the top rod is matched with the second boss for limiting during assembling.

Preferably, the ejector rod is hinged to the supporting plate seat, or the ejector rod is provided with a wedge-shaped part, and the wedge-shaped part is embedded into the supporting plate seat for limiting.

Preferably, the second bar is provided with a slot through which a bolt member is threaded to a nut member having a portion protruding beyond an end edge of the second bar or an end edge of the plate member, or the bolt member and the nut member cooperate to fasten a stopper member fitted over the bolt member, the stopper member having a portion protruding beyond an end edge of the second bar or the plate member.

Preferably, the nut member or the stopper member is engaged with the second boss for limiting.

Preferably, a plurality of vertical supporting strips are arranged between the first rod and the second rod at intervals, the two ends of the first rod and the two ends of the second rod are respectively provided with a rod, and the rods are respectively provided with a combination part which is matched and connected with the spliced templates.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model relates to a wooden frame receiving plate, when the lower end of the second bar is close to the plate and is provided with the second boss, after concrete pouring is finished, the wall body is solidified, and because the second boss is close to the wall body, no limiting structure is arranged on one side of the wall template spliced with the lower end of the second boss, which is far away from the wall body, thereby facilitating the disassembly of the wall template; keep away from plate one side at second pole lower extreme and set up the second boss, when the wall body solidifies the back and need dismantle the template, conveniently dismantle earlier this board of accepting, consequently the second boss has solved especially to the wooden frame template in the wall, the problem that can't be dismantled after floor and wall body solidify, simple structure has improved the availability factor of wooden frame template in the wall greatly moreover.

2. The upper end of the bearing plate of the utility model is spliced with a floor bearing plate or a wall outer wood frame template, and the first bar is provided with the slot or the lug boss for convenient assembly, positioning and fixation, thus greatly reducing the using amount of the template for the wall outer template and reducing the bearing capacity; when the floor bearing plates are connected, the installation speed can be improved, and assembly gaps or dislocation can be reduced.

3. The utility model discloses first joint portion sets to the cross section and becomes trapezoidal or profile of tooth, forms the port different with the bottom width, and convenient counterpoint is inserted, and convenient matched with pole passes through anchor clamps and presss from both sides tight location fixed.

4. The boss is located one side that first pole is close to the plate, and when the cooperation, the corresponding side in matched with template both ends sets up the boss, and the concatenation forms the effect that blocks of a direction on the cooperation position level, and relative direction then is free, makes things convenient for the dismantlement of template.

5. The utility model discloses the second boss is close to plate one side and is equipped with faying face and template one side inconsistent, and the removal of a direction of restriction template has certain thickness, not only conveniently fixes a position, also can provide certain effect of blockking in the horizontal direction moreover.

6. The utility model discloses in through the template back-and-forth movement that sets up layer board device and second boss cooperation restriction and second pole concatenation, the layer board seat is fixed can convenient fixed firm on the pole, and the layer board seat sets up the ejector pin that one end pushed up on the cooperation template for the template concatenation gap of assembling is less, makes things convenient for the dismouting moreover.

7. The utility model discloses a detachable wedge structure's ejector pin or rotatable articulated ejector pin for the template concatenation is quick, convenient dismantlement.

8. The utility model discloses the cooperation of bolt spare and nut spare is used or bolt spare and nut spare and is used with the cooperation of stopping the shelves piece, forms U type groove structure with the second boss or with second boss complex boss, restricts the second pole strip and rather than the relative movement on the pole strip horizontal plane of assembling to make the plate one side of assembling align, reduce the staggered distance of concatenation seam, open U type groove structure when dismantling the template, convenient the dismantlement.

9. The utility model discloses set up a plurality of vertical stays and tip pole between first member and second member for accept the board and can accept the weight rather than the upper portion building carrier plate of assembling or wall template, the bearing capacity of board is accepted in the reinforcing, and self can splice the extension on width direction.

Drawings

FIG. 1 is a schematic view of a panel B provided with stays;

FIG. 2 is a perspective view of a plate B provided with stays;

FIG. 3 is a sectional view taken along line A-A of FIG. 1;

FIG. 4 is a schematic structural view of a plate A;

FIG. 5 is a perspective view of a plate A;

fig. 6 is a front view of the plate member C;

fig. 7 is a schematic perspective view of a plate C;

FIG. 8 is a schematic view of a wall structure formed by splicing wood frame templates;

FIG. 9 is a sectional view taken along line D-D of FIG. 8;

FIG. 10 is a cross-sectional view taken along line C-C of FIG. 8;

FIG. 11 is a schematic view of three assembling structures of bearing plates;

FIG. 12 is a schematic view of a pallet arrangement;

FIG. 13 is a perspective view of the pallet apparatus shown in FIG. 12;

FIG. 14 is a schematic view of the assembled fastening structure of the bolt pieces of the bearing plate;

FIG. 15 is a schematic view of a second bar with bolt assembly;

fig. 16 is a schematic view of the assembly structure of the wood frame bearing plate and the floor deck.

In the figure: 1. a wood frame template; 11. plate members A, 12, plate members B, 13, plate members C (bearing plates), 14, beam bottom templates, 15, beam side templates, 100 and plate members; 101. a front side; 102. back face, 200, bar, 201, groove, 202, bottom bar, 203, brace, 204, pad, 210, longitudinal bar, 211, first longitudinal bar, 212, second longitudinal bar, 220, transverse bar, 221, first transverse bar, 222, second transverse bar, 230, joint, 231, slot, 2311, first side, 2312, second side, 2313, bottom face, 232, boss, 240, joint, 241, boss, 2411, first mating face, 2412, second mating face, 2413, top face, 242, recess, 400, pallet means, 410, ram, 411, bore, 412, wedge, 413, connecting rod, 414, jacking rod, 415, diagonal brace, 420, pallet seat, 421, pivot axis, 422, receptacle, 440, bolt, 441, nut member, 131, first bar, 1311, first joint, 132, second pivot joint, 1321, joint, 222, second transverse bar, joint, 230, joint, 2412, second mating face, 2413, top face, 242, concave, 400, pallet means, 410, ram, 411, 1322, wedge, and the like, The steel bar truss wood frame floor support plate comprises a second boss 1323, a joint surface 7, a steel bar truss wood frame floor support plate 710, a floor support plate 720, a steel bar truss 721, an upper chord steel bar 722, a lower chord steel bar 723, a web member steel bar 724, a fastener 725, a bolt 726, a support rib 730 and an end rod.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention only and are not limiting.

Example 1

The utility model provides a concept of wooden class not only includes the wood, can also be compound wood, is artificially changed the natural structure of wooden material promptly, reaches the wooden class material that certain physical property accords with the expectation requirement. The composite board can be a reinforced composite wood, a solid wood composite material and the like, and can also be a PVC board, a bamboo wood board, a wood slag board and the like, which belong to the scope;

as shown in fig. 1 to 10, the wood frame formwork 1 includes a plurality of wood-based panels 100, the panels 100 include a front surface 101 and a back surface 102 opposite to each other, the front surface 101 contacts cast-in-place concrete when in use, and bars 200 are distributed around the back surface 102. The bar 200 includes a longitudinal bar 210 and a transverse bar 220, and serves to support and connect and position the panel 100. The transverse bars 220 are respectively disposed at the upper and lower ends of the plate member 100, and the longitudinal bars 210 are disposed at the left and right ends of the plate member 100. The transverse bars 220 are connected to, abutted against or spaced from the top and bottom of the longitudinal bars 210, and the longitudinal bars 210 and the transverse bars 220 form a frame-shaped structure. A stay 203 can be further arranged in the middle of the frame structure, the stay 203 can be transversely arranged or longitudinally arranged, a space is arranged between two sides of the stay 203 and the rods 200 arranged in parallel, and the upper end and the lower end of the stay 203 are respectively abutted against the rods 200 arranged by treatment.

The bar 200 and the plate 100 are preferably bonded together by glue, but the bar 200 may be formed by pressing together when the plate 100 is manufactured. The glue is the existing wood bonding glue. The rod member 200 and the plate member 100 are fixedly connected by glue, and are integrated, so that the structure is firm, and the cutting is convenient. In some embodiments, the bar 200 and plate 100 may also be fixedly attached by fasteners such as screws, bolts, and nails.

Vertical pole 210 is including being located the first vertical pole 211 and the vertical pole 212 of second of plate 100 both sides limit portion, first vertical pole 211 is equipped with joint portion 230 with adjacent 1 concatenation sides of wood frame template, and corresponding vertical pole 212 of second is equipped with and combines portion 230 complex cooperation portion 240, and about or the member of upper and lower on same plate 100 sets up joint portion and cooperation portion respectively, can conveniently splice, and the commonality is strong. Joint portion 230 and cooperation portion 240 respectively can with the corresponding cooperation portion 240 of adjacent wooden frame template 1 and the cooperation of joint portion 230, through the concatenation of pole 200 for the side of adjacent plate 100 can laminate completely, thereby ensures that the positive template plane that forms of plate 100 has sufficient roughness, and then the concatenation seam dislocation is less, and cast-in-place wall surface of building is smooth. Of course, in the splicing of the frame formworks 1, the connecting portions 230 may be provided on the bars 200 of one frame formwork 1, and the fitting portions 240 may be provided on the bars 200 of another adjacent frame formwork 1.

Preferably, the specific structure of the combining part 230 is a slot 231 arranged on one side of the outer side of the pole 200, which is in contact with the adjacent pole, the slot 231 is a groove with a trapezoidal cross section and comprises a first side surface 2311 and a second side surface 2312 which are opposite, the first side surface 2311 and the second side surface 2312 are relatively inclined and are in an open mouth shape, and a bottom surface 2313 is arranged between the first side surface 2311 and the second side surface 2312. The corresponding matching portion 240 includes a protrusion 241 matching with the slot 231, the protrusion 241 is a protrusion with a trapezoidal cross section, and includes a first matching surface 2411 and a second matching surface 2412 respectively matching with the first side surface 2311 and the second side surface 2312 in an abutting or contact manner, and a top surface 2413 having a gap with the bottom surface 2313 when the protrusion 241 matches with the slot 231. The insertion groove 231 and the protrusion 241 are respectively penetrated through the longitudinal ends of the side surface of the bar 200. Of course, the first side surface 2311, the second side surface 2312 and the bottom surface 2313 may be flat surfaces or circular arc surfaces, or a part of the first side surface 2311, the second side surface 2312 and the bottom surface 2313 may be circular arc surfaces, or a part of the first side surface 2411, the second side surface 2412 and the top surface 2413 may be circular arc surfaces or prismatic surfaces. The coupling portion 230 and the fitting portion 240 may include one or several insertion grooves 231 and protrusions 241, respectively.

As shown in fig. 11 to 15, it is further preferable that the coupling portion 230 is provided with a projection 232 at a side of the bar 200, and the fitting portion 240 is provided with a recess 242 to be fitted with the projection 232. The side of the bar 200 where the coupling part 230 or the fitting part 240 is provided is a plane, and a portion protruding from one side in the longitudinal direction of the plane is a corresponding concave portion recess 242 of the projection 232. The two bars 200 are spliced together by the matching of the boss 232 and the recess 242 to form a splice joint similar to a 'Z' shape, and after splicing, the movement of any one bar relative to the other bar in a transverse direction is limited.

For the convenience of assembly and modular design, the cross section of the bar 200 is preferably a rectangular wood strip with the side length of 30mm-70mm, the wood frame template 1 comprises a plate A11 and a plate B12 with the height of 0.5m-5m, the width of the plate A11 is 120mm-280mm, two sides of the plate A11 are spliced and connected with the plate B12, and the connecting rod 520 penetrates through the plate A11. The width of the plate B12 is 210mm-800mm, for example, the plate B12 comprises a conventional size of plate 200 with a width of 600mm, a brace 203 is longitudinally and fixedly arranged on the back of the plate 200 in the area enclosed by the bars 200, and the width of the non-conventional plate 200 is adjusted according to different wall width requirements, although the non-conventional plate 200 may or may not be provided with a brace.

The upper end of the wall outer wood frame template 1 is spliced and connected with a plate C13, the height of the plate C13 is 120mm-800mm, the width of the plate C13 is 0.5m-5m, and a plurality of supporting strips are fixedly arranged in the area surrounded by the rods 200 at intervals in the longitudinal direction. The wall outer wood frame template 1 is formed by splicing a plate A11 and a plate B12 into a wall surface template between each floor height, the templates of the thickness parts of the floor boards are spliced with the end parts of the plate A11 and the plate B12 through a plate C13, the wall outer wood frame template at one floor comprises a plate A11 and a plate B12, and the lower end and the upper end of the plate A11 and the plate B12 are respectively connected with a plate C13. The wall body and the floor or the beam can be poured simultaneously, after the cast-in-place wall body is maintained to meet the requirement, the plate C13 at the lower ends of the plate A11 and the plate B12 is firstly removed, then the plate A11 and the plate B12 are removed, the removed wood frame template 1 is used as a template of an upper floor for splicing and building, the turnover rate is sequentially and circularly improved, and the using amount of the wood frame template is reduced. The door and window openings of the poured wall are spliced by cutting the plate A11 and the plate B12 or the preset wooden frame template 1 with unconventional height.

As shown in fig. 11 to 16, the plate C13 of the present invention is adapted to be used with a wood frame template inside a wall and a wood frame template outside the wall as a wood frame receiving plate, the plate 100 of the wood frame receiving plate 13 includes a front surface for contacting with cast concrete and a back surface opposite to the front surface, a first bar 131 and a second bar 132 are respectively and transversely and fixedly disposed on the upper side and the lower side of the back surface of the plate 100, the first bar 131 is provided with a first engaging portion 1311 on the upper side, the second bar 132 is provided with a second engaging portion 1321 on the lower side, the second engaging portion 1321 is provided with a second boss 1322 protruding downward, and the second boss 1322 is close to one side of the plate 100 or far from one side of the plate 100. The upper end and the lower end of the wood frame bearing plate 13 are connected with the outer wall wood frame formwork, when the second boss 1322 is close to one side of the plate 100, the outer wall wood frame formwork can be conveniently dismounted firstly after the wall body is poured, and on the contrary, when the second boss 1322 is far away from one side of the plate 100, the wood frame bearing plate 13 can be conveniently dismounted firstly after the wall body is solidified. As shown in fig. 16, when the lower end of the wood frame receiving plate 13 is spliced with the wood frame formwork in the wall and the upper end is spliced with the wood frame floor slab 700, the upper end of the first bar 131 abuts against the lower side of the floor slab 710, the first bar 131 opposite to the plate abuts against one side of the floor slab bar 730 fixed at the end of the wood frame floor slab 700, of course, the first bar and the floor slab bar are spliced so that the first combining portion 1311 can be a plane, and certainly, the slot 231 or the protrusion 241 can be provided for matching. The first coupling portion 1311 is provided with a slot 231 or a protrusion 241 or a boss 232, and the slot 231 or the protrusion 241 has a trapezoidal or tooth-shaped cross section. When the first coupling portion 1311 is provided with the boss 232, the boss 232 is preferably located at a side of the first bar 131 close to the plate 100, so that the receiving plate 13 is conveniently spliced with the floor support plate 700 with the floor support plate bar 730 at the end.

When the second projection 1322 is located at a side close to the plate, a joint surface 1323 parallel to the plate is provided at the side opposite to the plate of the second projection 1322, and the joint surface 1323 abuts against a matched template.

In order to make the splicing gap of the plate 100 smaller and avoid the joint dislocation, the second bar 132 is provided with a supporting plate device 400, and the supporting plate device 400 is used for being matched with the second boss after the clamp is clamped and fixed to limit the forward and backward sliding of the wood frame bearing plate 13 when the wood frame bearing plate 13 is assembled with the wood frame template 1, and is positioned and fixed, so that the splicing joint dislocation is smaller. The specific structure of the supporting plate device 400 includes a supporting plate seat 420 fixed on the second bar 132 or on a supporting bar arranged between the first bar and the second bar, the supporting plate seat 420 is connected with a top rod 410 protruding the lower end of the second bar 132 and arranged opposite to the second boss 1322, and during assembly, the top rod 410 is matched with the second boss 1322 for limiting. The top rod 410 is hinged to the supporting plate seat 420 or the top rod 410 is provided with a wedge-shaped part 412 which is embedded into the supporting plate seat 420 for limiting.

As shown in FIGS. 11-13, three specific configurations of the blade device 400 are shown, and the blade device 400 is provided with a top bar 410 having a "U" shape with a second boss 1321. The blade device 400 includes a blade seat 420, and the blade seat 420 is fixed to the bar 200 or the stay 203. The lift pins 410 cooperate with the pallet base 420 to support the bars 200, reducing stagger. The matching form of the top rod 410 and the pallet seat 420 is various, including the mode of pin joint, insertion or welding, bolt and the like for fixed connection.

One form of the fixed connection between the top rod 410 and the supporting plate seat 420 is as follows: the ejector pin 410 comprises a connecting rod 413 and a jacking rod 414, wherein the connecting rod 413 and the jacking rod 414 are formed by right-angled plates or rods and comprise channel steel, C-shaped steel and the like which are cut or spliced. One end of the connecting rod 413 is connected with the supporting plate seat 420 in a welding mode, and one end of the jacking rod 414 extends towards the splicing direction. And an inclined strut 415 is also arranged between the ejector rod 410 and the supporting plate seat 420. In some embodiments, the right-angled top bar 410 may also be hinged to the pallet base 420, the connecting rod 413 is hinged to the top support bar 414, and the diagonal brace 415 is hinged to the top bar 410 or the pallet base 420.

As shown in fig. 14 to 15, the second bar 132 is provided with a slot through which a bolt member 440 is screwed to a nut member 441, the nut member 440 having a portion protruding from an end edge of the second bar 132 or an end edge of the plate member, or the bolt member 440 being screwed to the nut member 441 to fasten a stopper 442 fitted around the bolt member 440, the stopper 442 having a portion protruding from an end edge of the second bar or the plate member. The nut member 440 or the stopper 442 is engaged with the second projection 1322 to limit the position. The nut member 441 located at the side of the plate 100 is solidified in the wall after concrete is poured, the threaded hole provided in the nut member 441 is generally a blind hole, which facilitates the screw member 440 to be screwed out, and of course, the screw member 440 may also simultaneously penetrate through the second bar 132 and the bar 200 engaged with the second bar 132.

A plurality of vertical supporting strips are arranged between the first rod 131 and the second rod 132 at intervals, end rods are arranged at two ends of the first rod 131 and the second rod 132 respectively, and the end rods are provided with combining parts 230 which are connected with the spliced templates in a matching manner.

As shown in fig. 15, the wood frame receiving plate 13 is assembled with a steel bar truss wood frame floor deck 7, the steel bar truss wood frame floor deck 7 includes a floor deck 710, the floor deck is detachably connected with a fastener 724 of a fastener steel bar truss 720 through a bolt 725, and the steel bar truss 720 includes an upper chord steel bar 721, a lower chord steel bar 722 and a web member steel bar 723. The tip of steel bar truss 720 is equipped with support muscle 726, and building carrier plate 710 both ends are equipped with tip pole 730, tip pole 730 one side is contradicted with the second pole 132 butt joint of plank frame accepting board 13 tip.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims

1. The utility model provides a plank frame accepts board, its characterized in that includes wooden class rectangle plate (100), this plate (100) including be used for with the front that concreting contacted and with the relative back in front, transversely fixed first pole (131) and second pole (132) of being provided with respectively at the upper edge position and the lower limb of plate (100) back, first pole (131) upside is equipped with first joint portion (1311), second pole (132) downside is equipped with second joint portion (1321), second joint portion (1321) are equipped with downward outstanding second boss (1322), second boss (1322) are close to plate (100) one side or keep away from plate (100) one side.

2. The wood frame receiving plate according to claim 1, wherein the first coupling portion (1311) is provided with a slot (231) or a projection (241) or a boss (232).

3. A wood frame receiving board according to claim 2, wherein the slot (231) or the projection (241) is trapezoidal or toothed in cross-section.

4. A wood frame receiving board according to claim 2, wherein the boss (232) is located on the side of the first bar (131) adjacent the board member (100).

5. A wood frame receiving board according to claim 1, wherein the second projection (1322) is located at a side close to the board member (100), and the second projection (1322) is provided with a joint surface (1323) parallel to the board member at an opposite side of the board member (100), and the joint surface (1323) is abutted against a matching formwork.

6. A timber frame receiving plate according to any one of claims 1 to 5 wherein the second bar (132) is provided with a pallet means (400), the pallet means (400) comprising a pallet base (420) fixed to the second bar (132) or to a brace provided between the first bar and the second bar, the pallet base (420) being connected to a top bar (410) projecting beyond the lower end of the second bar (132) and disposed opposite the second boss (1322), the top bar (410) cooperating with the second boss (1322) for position limiting during assembly.

7. The wood frame receiving plate of claim 6, wherein the top bar (410) is hinged with the pallet base (420) or the top bar (410) is provided with a wedge-shaped part (412), and the wedge-shaped part (412) is embedded into the pallet base (420) for limiting.

8. A timber-frame receiving plate according to any one of claims 1 to 5 wherein the second bar (132) is provided with a slot through which a bolt member (440) is passed to be screwed with a nut member (441), the nut member (441) having a portion projecting beyond an end edge of the second bar (132) or an end edge of the plate member, or the bolt member (440) is passed to be fitted with the nut member (441) to fasten a stopper member (442) fitted around the bolt member (440), the stopper member (442) having a portion projecting beyond an end edge of the second bar or the plate member.

9. A wood frame receiving plate according to claim 8, wherein the nut member (441) or the stop member (442) is engaged with the second boss (1322) to be restrained.

10. The wood frame receiving plate according to claim 1, wherein a plurality of vertical supporting bars are arranged between the first bar (131) and the second bar (132) at intervals, the two ends of the first bar (131) and the second bar (132) are respectively provided with a bar (200), and the bars (200) are respectively provided with a combination part which is matched and connected with the spliced templates.