CN219075995U - Wallboard mould that can be general - Google Patents

Wallboard mould that can be general Download PDF

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Publication number
CN219075995U
CN219075995U CN202223284211.1U CN202223284211U CN219075995U CN 219075995 U CN219075995 U CN 219075995U CN 202223284211 U CN202223284211 U CN 202223284211U CN 219075995 U CN219075995 U CN 219075995U
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China
Prior art keywords
panel
upper wing
plate
wallboard
pipes
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CN202223284211.1U
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Chinese (zh)
Inventor
赵立革
王准
刘齐
王立杰
李旭
胡浩
王刚
白建明
韩杰
张尚森
甄友良
张家瑞
张元�
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Beijing Jinyu Group Co ltd
Beijing Jinyu New Building Materials Industrialization Group Co ltd
Jinyu Housing Industrialization Tangshan Co ltd
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Beijing Jinyu Group Co ltd
Beijing Jinyu New Building Materials Industrialization Group Co ltd
Jinyu Housing Industrialization Tangshan Co ltd
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Application filed by Beijing Jinyu Group Co ltd, Beijing Jinyu New Building Materials Industrialization Group Co ltd, Jinyu Housing Industrialization Tangshan Co ltd filed Critical Beijing Jinyu Group Co ltd
Priority to CN202223284211.1U priority Critical patent/CN219075995U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/91Use of waste materials as fillers for mortars or concrete

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Abstract

The utility model relates to a wallboard mould that can be general belongs to the technical field of assembled building, and it includes the mould platform, be equipped with side form mechanism on the mould platform, side form mechanism is including being located the last pterygoid lamina of mould platform top, the mould platform upside be equipped with the corresponding lower pterygoid lamina of last pterygoid lamina, be equipped with a plurality of panels that are used for connecting both down between pterygoid lamina, the panel winds go up the inboard circumference butt in proper order of pterygoid lamina and form the cavity that is used for shaping concrete, go up the pterygoid lamina and include four and be located the coplanar and form the upper pterygoid canal of rectangle, be equipped with on the upper pterygoid lamina and adjust the regulation subassembly of last pterygoid lamina area, the lower pterygoid lamina includes a plurality of mounting panels, and each mounting panel forms the rectangle equally, and is equipped with the coupling assembling who connects both between two adjacent mounting panels. The application has the effects of increasing the applicability of the wallboard die and improving the utilization rate of the wallboard die.

Description

Wallboard mould that can be general
Technical Field
The application relates to the technical field of assembled buildings, in particular to a wallboard die which can be used universally.
Background
The assembled building is formed by transferring a large amount of field operation work in a traditional building mode to a factory, processing and manufacturing building components and accessories in the factory, transporting to a building construction site, and assembling and installing on site through a reliable connection mode. Common accessories are floors, wallboards, stairs, balconies and the like, and assembled buildings mainly comprise prefabricated assembled concrete structures, steel structures, modern wood structure buildings and the like. In the production of fabricated concrete floors, concrete is usually poured into a mold and formed.
The wallboard mould that uses is become by side form and die block, and side form integration sets up and forms square cavity, and side form and bottom plate are fixed each other through the bolt, and in the cavity that side form was made to the side form is emptyd to the upside this moment with the concrete, the concrete flows to the direction that is close to the side form gradually under the effect of gravity, until the concrete evenly spreads in the side form, forms the wallboard after the shaping.
The side form integration of wallboard mould sets up in the correlation technique, makes the size of wallboard mould fixed from this, and the wallboard specification of production is the same when using, when the mould of different specifications of needs production, then need change and use the wallboard mould of different specifications, easily causes the condition that wallboard mould suitability is low from this, influences the utilization ratio of wallboard mould.
Disclosure of Invention
In order to increase the applicability of wallboard mould, improve the utilization ratio of wallboard mould, this application provides a wallboard mould that can general.
The application provides a wallboard mould that can be general adopts following technical scheme:
the utility model provides a wallboard mould that can general, includes the mould platform, be equipped with side mould mechanism on the mould platform, side mould mechanism is including being located the last pterygoid lamina of mould platform top, mould platform upside be equipped with the corresponding lower pterygoid lamina of last pterygoid lamina, be equipped with a plurality of panels that are used for connecting both down between going up pterygoid lamina and the lower pterygoid lamina, the panel is around the inboard circumference butt in proper order of going up pterygoid lamina forms the cavity that is used for shaping concrete, it includes four and is located the coplanar and forms the upper pterygoid canal of rectangle to go up the pterygoid lamina, be equipped with on the upper pterygoid canal and adjust the regulation subassembly of upper pterygoid lamina area, the lower pterygoid lamina includes a plurality of mounting panels, and each mounting panel forms the rectangle equally, and is equipped with the coupling assembling who connects both between two adjacent mounting panels.
Through adopting above-mentioned technical scheme, when using the wallboard mould that can be general, the lower pterygoid lamina is located the mould bench, and the upper pterygoid lamina is located down the pterygoid lamina top and just right with the pterygoid lamina down this moment, and when upper pterygoid lamina and lower pterygoid lamina pass through the panel connection, when needing the wallboard of production different sizes, adjust the area of upper pterygoid lamina through adjusting the subassembly, increase or reduce panel quantity this moment, and remove the fixation between two adjacent mounting panels, and increase or reduce the quantity of mounting panel correspondingly, until upper pterygoid lamina and lower pterygoid lamina are corresponding, thereby adjust the size of wallboard mould, increase wallboard mould's suitability, improve wallboard mould's utilization ratio.
Optionally, the adjusting component includes two sliding tubes that cup joint on the upper wing pipe, the sliding tube is followed the length direction of upper wing pipe slides, and two the upper wing pipe is close to each other one side the sliding tube fixed connection.
Through adopting above-mentioned technical scheme, when adjusting the area of upper wing plate, the slip pipe on one of them upper wing pipe slides on the upper wing pipe, until the distance between two slip pipes on the upper wing pipe reaches required size, the slip pipe on one of them upper wing pipe that drive and this upper wing pipe vertically at this moment slides, until the area that each slip pipe encloses corresponds with required wallboard area to adjust the upper wing plate area, be convenient for adjust wallboard mould, increase wallboard mould's suitability, improve wallboard mould's utilization ratio.
Optionally, the connecting assembly includes being located adjacent two between the mounting panel and with the mounting panel passes through bolted connection's stay tube, the stay tube keep away from the one end of mounting panel with upper wing pipe fixed connection.
Through adopting above-mentioned technical scheme, after last pterygoid lamina area is adjusted, increase or reduce the quantity of mounting panel for lower pterygoid lamina area corresponds the setting with last pterygoid lamina, when the mounting panel, through bolt and stay tube connection, stay tube is same with last pterygoid lamina fixed connection, thereby has increased the stability that goes up pterygoid lamina and be connected with lower pterygoid lamina, further reaches the suitability that increases wallboard mould, improves the effect of wallboard mould's utilization ratio.
Optionally, the mounting panel is close to one side of stay tube is equipped with a plurality of mounting, the mounting includes two orientation the fixed plate that the panel set up, the fixed plate be close to the one end of panel all with panel lateral wall butt.
Through adopting above-mentioned technical scheme, accomplish the back with lower pterygoid lamina and last pterygoid lamina installation, the fixed plate butt is on the panel to increased the stability of panel, reduced the panel and received the extrusion and damaged possibility at concrete paving's in-process, further reached the suitability that increases wallboard mould, improved the effect of wallboard mould's utilization ratio.
Optionally, the fixed plate is towards the one end of panel is equipped with the butt board of same connection two, just the butt board is close to one side of panel with panel lateral wall butt and pass through bolted connection.
Through adopting above-mentioned technical scheme, the fixed plate has all increased the area of contact of fixed plate and panel through butt board and panel butt, and the in-process that reduces fixed plate butt panel is less with the area of contact, causes the panel lateral wall atress big and the possibility of damage, and butt board and panel bolted connection to further fixed mounting panel and panel, further increase the stability that panel and mounting panel are connected.
Optionally, a plurality of suspension parts for abutting the wallboard and positioning the concrete are arranged on the upper wing plate.
Through adopting above-mentioned technical scheme, pouring concrete until concrete upside and hanger downside butt, the wallboard that the concrete that adds made this moment accords with required size to be convenient for confirm the thickness of wallboard, further increase wallboard mould's suitability, improve wallboard mould's utilization ratio.
Optionally, the hanger comprises a supporting rod, one end of the supporting rod is connected with the upper wing pipe through a bolt, the other end of the supporting rod is bent towards one side close to the lower wing plate, and one end of the supporting rod, which is far away from the upper wing pipe, is abutted against the upper side of the concrete.
Through adopting above-mentioned technical scheme, when confirming concrete thickness, will support the pole and install on the upper wing pipe earlier, to the one side pouring concrete that is close to the panel this moment, when concrete upside height equals with the pole lower extreme height, stop pouring concrete to confirm concrete thickness, thereby improve wallboard shaping efficiency.
Optionally, a positioning plate perpendicular to the panel is arranged at one end of the abutting rod far away from the upper wing pipe, and the width of the positioning plate is larger than the section width of the abutting rod.
Through adopting above-mentioned technical scheme, the butt pole passes through locating plate and concrete butt to increase the area of contact of butt pole and concrete, be convenient for observe the height of concrete upside, further be convenient for confirm concrete thickness, thereby improve wallboard forming efficiency.
In summary, the present application includes at least one of the following beneficial technical effects:
1. when wallboards with different sizes are required to be produced, the area of the upper wing plate is regulated through the regulating component, the number of the panels is increased or reduced at the moment, the fixation between two adjacent mounting plates is released, the number of the mounting plates is correspondingly increased or reduced until the upper wing plate corresponds to the lower wing plate, so that the size of the wallboard mould is regulated, the applicability of the wallboard mould is increased, and the utilization rate of the wallboard mould is improved;
2. after the area of the upper wing plate is adjusted, the number of mounting plates is increased or reduced, so that the area of the lower wing plate is correspondingly arranged with the upper wing plate, when the mounting plates are mounted, the mounting plates are connected with the supporting pipes through bolts, the supporting pipes are fixedly connected with the upper wing pipes, the stability of the connection of the upper wing plate and the lower wing plate is improved, and the effects of increasing the applicability of the wallboard die and improving the utilization rate of the wallboard die are further achieved;
3. the fixed plate is all through butt board and panel butt, has increased the area of contact of fixed plate and panel, and the in-process that reduces fixed plate butt panel is less with the area of contact, causes the panel lateral wall atress big and the possibility of damage, and butt board and panel bolted connection to further fixed mounting panel and panel, the stability of increase panel and mounting panel connection.
Drawings
Fig. 1 is a schematic view of the overall structure of a wallboard mold that can be used in common in embodiments of the present application.
Fig. 2 is an enlarged view of the structure at a in fig. 1.
Reference numerals illustrate: 1. a die table; 2. a side mold mechanism; 21. a lower wing plate; 211. a mounting plate; 22. an upper wing plate; 221. an upper wing tube; 23. a panel; 24. an adjustment assembly; 241. a sliding tube; 25. a connection assembly; 251. a support tube; 252. a connecting plate; 26. a fixing member; 261. a fixing plate; 262. an abutting plate; 27. a hanging piece; 271. a butt joint rod; 272. a positioning plate; 3. and (5) briquetting.
Detailed Description
The present application is described in further detail below with reference to the accompanying drawings.
The embodiment of the application discloses wallboard mould that can general. Referring to fig. 1 and 2, a wall panel mold capable of being commonly used comprises a horizontal mold table 1, wherein a side mold mechanism 2 is arranged on the upper side surface of the mold table 1, and the side mold mechanism 2 is detachably connected with the mold table 1. The side die mechanism 2 comprises a rectangular lower wing plate 21 which is abutted against the upper side surface of the die table 1, an upper wing plate 22 which is opposite to the lower wing plate 21 is arranged on one side, away from the die table 1, of the lower wing plate 21, a plurality of panels 23 which are sequentially placed and mutually abutted against each other to form a rectangle are connected to the inner side surface of the upper wing plate 22 through bolts, and one end, away from the upper wing plate 22, of each panel 23 is connected with the inner side surface of the lower wing plate 21 through bolts.
When the universal wallboard die is used, the lower wing plate 21 is positioned on the die table 1, the upper wing plate 22 is positioned above the lower wing plate 21 and is opposite to the lower wing plate 21, the upper wing plate 22 is connected with the lower wing plate 21 through the panel 23, and when wallboards with different sizes are required to be produced, the area of the upper wing plate 22 is adjusted through the adjusting assembly 24, the number of the panels 23 is increased or reduced, the lower wing plate 21 is adjusted until the upper wing plate 22 corresponds to the lower wing plate 21, and therefore the size of the wallboard die is adjusted.
The upper wing plate 22 comprises four upper wing pipes 221 which are horizontally arranged and form a rectangle, two upper wing pipes 221 which are arranged along the length direction of the die table 1 are parallel to each other and are positioned below the other two upper wing pipes 221 which are parallel to each other, and the upper wing pipes 221 are provided with adjusting components 24 for adjusting the cross-sectional area of the wall plate which can be formed by the panel 23. The adjusting component 24 comprises sliding pipes 241 respectively sleeved at two ends of the upper wing plate 22, the sliding pipes 241 are all in sliding connection with the upper wing pipe 221 along the length direction of the upper wing pipe 221, and the sliding pipes 241 at the ends, close to each other, of the upper wing pipe 221 are fixedly connected.
When the area is adjusted, one of the sliding pipes 241 on the upper wing pipe 221 arranged along the length direction of the die table 1 is driven to slide on the upper wing pipe 221 until the distance between the two sliding pipes 241 on the upper wing pipe 221 reaches the required length, at this time, one of the sliding pipes 241 on the upper wing pipe 221 arranged along the width direction of the die table 1 is driven to slide until the area enclosed by each sliding pipe 241 corresponds to the required wallboard area, and the size adjustment is completed.
The lower wing plate 21 comprises a plurality of horizontal mounting plates 211, a connecting assembly 25 for connecting the two mounting plates 211 is arranged between every two adjacent mounting plates 211, each connecting assembly 25 comprises a vertical supporting tube 251, two ends of the upper side of each mounting plate 211 are fixedly connected with vertical connecting plates 252, and the connecting plates 252 positioned on two sides of each supporting tube 251 are connected with each supporting tube 251 through bolts. One end of the support tube 251 away from the mounting plate 211 is fixedly connected with the upper wing plate 22, and one side of the support tube 251 close to the panel 23 is abutted against the side wall of the panel 23. The end of the upper wing pipe 221 near the side of the lower wing plate 21 is also fixedly connected with a vertical supporting pipe 251, and the end of the supporting pipe 251 far away from the upper wing pipe 221 is also fixedly connected with a bolt through a connecting plate 252.
When the area adjustment of the upper wing plate 22 for producing the wall plate is completed, the number of the mounting plates 211 is increased or reduced or the mounting plates 211 with different sizes are replaced, so that the area of the lower wing plate 21 is correspondingly arranged with the upper wing plate 22, when the mounting plates 211 are mounted, the support pipes 251 are connected with the support pipes 251 through bolts, the support pipes 251 are fixedly connected with the upper wing pipes 221, and the connection stability of the upper wing plate 22 and the lower wing plate 21 is improved.
One side of mounting panel 211 near upper wing pipe 221 is equipped with a plurality of mounting pieces 26, sets up to three in this embodiment, and mounting piece 26 includes two mutually parallel and vertical fixed plates 261, and two fixed plates 261 set up towards panel 23, and one side fixedly connected with same butt plate 262 that two adjacent fixed plates 261 are close to panel 23, butt plate 262 is the L shape, the one end that butt plate 262 is close to panel 23 is vertical and is connected with panel 23 through the bolt, the butt plate 262 other end is located one side that fixed plate 261 is close to mounting panel 211 and with two fixed plates 261 fixed connection, and the one end that butt plate 262 kept away from panel 23 is connected with mounting panel 211 through the bolt equally.
After the lower wing plate 21 and the upper wing plate 22 are installed, the fixed plates 261 are abutted to and connected with the panel 23 through the abutting plates 262, the contact area between the fixed plates 261 and the panel 23 is increased, the abutting plates 262 are connected with the panel 23 through bolts, so that the mounting plate 211 and the panel 23 are further fixed, the stability of connection between the panel 23 and the mounting plate 211 is improved, the fixing pieces 26 and the mounting plate 211 are connected through bolts, the positions of the fixing pieces 26 are adjusted and replaced, and the possibility that the fixing pieces 26 block the placement of reinforcing steel bars in the wallboard is reduced.
The mounting plate 211 is provided with a plurality of briquetting 3 that are used for compressing down pterygoid lamina 21 and mould platform 1 on the side that is close to upper wing pipe 221, sets up two in this embodiment to compress tightly side form mechanism 2 on mould platform 1. One side of the upper wing plate 22 away from the mounting plate 211 is provided with a suspension member 27, two upper wing pipes 221 arranged along the length direction of the die table 1 are provided, and one upper wing pipe 221 is provided on each of the other two upper wing pipes 221. The suspension member 27 includes a C-shaped supporting rod 271, the opening of the supporting rod 271 is disposed towards the mounting plate 211, the supporting rod 271 is located on the side of the upper wing tube 221 close to the panel 23, the height of the lower end of the supporting rod 271 close to one end of the upper wing tube 221 is higher than the height of the lower end of the supporting rod 271 away from one end of the upper wing tube 221, one end of the supporting rod 271 close to the upper wing tube 221 is connected with the upper wing tube 221 through a bolt, and a horizontal positioning plate 272 with a width greater than that of the supporting rod 271 is fixedly connected with the other end of the supporting rod 271.
When concrete is poured, the abutting rod 271 is mounted on the upper wing pipe 221, concrete is poured on the side close to the panel 23, and when the height of the upper side of the concrete is equal to the height of the lower end of the positioning plate 272, concrete pouring is stopped, and the thickness of the concrete is determined.
The implementation principle of the wallboard die capable of being used universally is as follows: when the wallboard die capable of being used universally is used, during area adjustment, one of the sliding pipes 241 on the upper wing pipe 221 arranged along the length direction of the die table 1 is driven to slide on the upper wing pipe 221 until the distance between the two sliding pipes 241 on the upper wing pipe 221 reaches the required length, at the moment, one of the sliding pipes 241 on the upper wing pipe 221 arranged along the width direction of the die table 1 is driven to slide until the area enclosed by each sliding pipe 241 corresponds to the required wallboard area, at the moment, the number of the panels 23 and the mounting plates 211 is adjusted, the area of the lower wing plate 21 is correspondingly arranged with the upper wing plate 22, the mounting plates 211 are connected with the supporting pipes 251 through bolts, and the supporting pipes 251 are fixedly connected with the upper wing pipe 221, so that size adjustment is completed.
The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A wallboard mould that can general, its characterized in that: including mould platform (1), be equipped with side mould mechanism (2) on mould platform (1), side mould mechanism (2) are including being located upper wing plate (22) of mould platform (1) top, mould platform (1) upside be equipped with upper wing plate (21) corresponding lower wing plate (22), be equipped with a plurality of panel (23) that are used for connecting both down between upper wing plate (22) and lower wing plate (21), panel (23) are around upper wing plate (22) inboard circumference butt in proper order and form the cavity that is used for shaping concrete, upper wing plate (22) are including four be located in the coplanar and form upper wing pipe (221) of rectangle, be equipped with on upper wing pipe (221) regulation upper wing plate (22) area regulation subassembly (24), lower wing plate (21) include a plurality of mounting panel (211), and each mounting panel (211) form the rectangle equally, and are equipped with coupling assembling (25) of connecting both between two adjacent mounting panel (211).
2. A versatile wallboard mould according to claim 1, characterized in that: the adjusting component (24) comprises two sliding pipes (241) sleeved on the upper wing pipes (221), the sliding pipes (241) slide along the length direction of the upper wing pipes (221), and the sliding pipes (241) on one side, close to each other, of the two upper wing pipes (221) are fixedly connected.
3. A versatile wallboard mould according to claim 2, characterized in that: the connecting assembly (25) comprises supporting pipes (251) which are positioned between two adjacent mounting plates (211) and are connected with the mounting plates (211) through bolts, and one ends of the supporting pipes (251) away from the mounting plates (211) are fixedly connected with the upper wing pipes (221).
4. A versatile wallboard mould according to claim 3, characterized in that: one side of the mounting plate (211) close to the supporting tube (251) is provided with a plurality of fixing pieces (26), the fixing pieces (26) comprise two fixing plates (261) which are arranged towards the panel (23), and one ends of the fixing plates (261) close to the panel (23) are all in butt joint with the side wall of the panel (23).
5. A versatile wallboard mould according to claim 4, characterized in that: one end of the fixed plate (261) facing the panel (23) is provided with an abutting plate (262) which is connected with the fixed plate and the abutting plate, and one side, close to the panel (23), of the abutting plate (262) is abutted with the side wall of the panel (23) and connected with the side wall of the panel through bolts.
6. A versatile wallboard mould according to claim 2, characterized in that: the upper wing pipe (221) is provided with a plurality of hanging pieces (27) for abutting against the wallboard and positioning concrete.
7. A versatile wallboard mould according to claim 6, characterized in that: the suspension piece (27) comprises a supporting rod (271), one end of the supporting rod (271) is connected with the upper wing pipe (221) through a bolt, the other end of the supporting rod is bent towards one side close to the lower wing plate (21), and one end of the supporting rod (271) away from the upper wing pipe (221) is abutted against the upper side of concrete.
8. A versatile wallboard mould according to claim 7, characterized in that: one end of the abutting rod (271) far away from the upper wing pipe (221) is provided with a positioning plate (272) perpendicular to the panel (23), and the width of the positioning plate (272) is larger than the section width of the abutting rod (271).
CN202223284211.1U 2022-12-07 2022-12-07 Wallboard mould that can be general Active CN219075995U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202223284211.1U CN219075995U (en) 2022-12-07 2022-12-07 Wallboard mould that can be general

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202223284211.1U CN219075995U (en) 2022-12-07 2022-12-07 Wallboard mould that can be general

Publications (1)

Publication Number Publication Date
CN219075995U true CN219075995U (en) 2023-05-26

Family

ID=86404599

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202223284211.1U Active CN219075995U (en) 2022-12-07 2022-12-07 Wallboard mould that can be general

Country Status (1)

Country Link
CN (1) CN219075995U (en)

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