CN214561752U - Wallboard mould with adjustable - Google Patents

Abstract

The adjustable wallboard mold comprises a frame formed by splicing a pair of upper and lower hollow cross beams and a pair of upper and lower hollow longitudinal beams, and a pore-forming mold core arranged between the two cross beams in a penetrating manner, wherein each cross beam is formed by combining a unit I positioned at two ends, a plurality of units II and units III positioned in the middle, and each longitudinal beam is formed by combining a unit IV positioned at two ends and a plurality of units V positioned in the middle; the utility model discloses a wallboard mould with adjustable make up into different sizes by a plurality of unit module, can satisfy the production of equidimension wallboard not, can carry out the design of spare parts such as door, window simultaneously on the wallboard, extensive applicability is extensive, and the drawing of patterns of being convenient for, and hollow structure can alleviate the weight of mould body simultaneously, practices thrift the mould material, reduces the manufacturing cost of mould, and multiplicable group's mould space reduces the operation degree of difficulty simultaneously, convenient hoist and mount or transport.

Description

Wallboard mould with adjustable

Technical Field

The utility model relates to a wallboard processing technology field, in particular to wallboard mould with adjustable.

Background

With the vigorous development of the building industry and the continuous improvement and development of building technology in recent years, the prefabricated wall panels are widely used, and when the prefabricated wall panels are produced, the molds are important production equipment and can ensure the quality of the prefabricated wall panels. At present, the existing common wallboard mould has the following defects in production: firstly, only fixed wallboard sizes can be processed, the processing width and length of the wallboards cannot be adjusted, the processing of wallboards with different sizes can only be realized through different processing templates, and the back-and-forth switching is very troublesome when the wallboards with different sizes are processed and produced, so that the production efficiency is influenced; secondly, the light wall board is mostly processed by die assembly and pouring through a die, the die assembly and pouring are difficult during die filling and demoulding, the die is easy to adhere to the side edge of the light wall board, and the die is usually dismounted by adopting a knocking method through a hammer, so that the side edge of the light wall board is easy to damage, and the later installation of the wall board is influenced; thirdly, the wallboard mould in the market is mostly integrative fixed knot structure at present, and the unable adjustment of assembly piece on the mould can only produce the decoration wallboard of a specification in the production process, leads to the production product single, and manufacturing cost is very high, and is expensive, is unfavorable for comprehensive using widely. Therefore, a wallboard mold with adjustable size, variable pattern and convenient demolding is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a wallboard mould with adjustable makes up into different sizes by a plurality of unit module, can satisfy the production of equidimension wallboard not, can carry out the design of door, window isotructure on the wallboard simultaneously, and extensive applicability is general, and the drawing of patterns of being convenient for.

The utility model adopts the technical proposal that: the adjustable wallboard mold comprises a frame formed by splicing a pair of upper and lower hollow cross beams and a pair of upper and lower hollow longitudinal beams, and a pore-forming mold core arranged between the two cross beams in a penetrating manner, wherein each cross beam is formed by combining a unit I positioned at two ends, a plurality of units II positioned in the middle and a unit III, and each longitudinal beam is formed by combining a unit IV positioned at two ends and a plurality of units V positioned in the middle.

As the preferred scheme, unit I includes the first die carrier that the longitudinal symmetry set up, sets up the second die carrier between two sets of first die carriers, be equipped with a nib that runs through the side on the first die carrier, the medial surface of second die carrier is equipped with horizontal constant head tank I between the nib from top to bottom, horizontal constant head tank I with the one end that the longeron is connected is equipped with the chamfer.

As a preferred scheme, the unit II comprises third die carriers and a fourth die carrier, the third die carriers are arranged in an up-and-down symmetrical mode, the fourth die carriers are arranged between the two sets of third die carriers, two die holes penetrating through the side faces are formed in the third die carriers, and a transverse positioning groove II is formed in the inner side face of the fourth die carrier between the upper set of die holes and the lower set of die holes.

As a preferred scheme, the unit III comprises fifth die carriers and sixth die carriers, the fifth die carriers are symmetrically arranged up and down, the sixth die carriers are arranged between the two groups of fifth die carriers, three die holes penetrating through the side faces are formed in the fifth die carriers, and transverse positioning grooves II are formed in the inner side faces of the sixth die carriers between the upper group of die holes and the lower group of die holes.

Preferably, the unit IV comprises seventh die carriers arranged up and down and an eighth die carrier arranged between the two sets of seventh die carriers, wherein a boss is arranged on the inner side surface of each seventh die carrier, a chamfer is arranged at one end, connected with the cross beam, of the boss, and a longitudinal positioning groove is formed in the inner side surface of the eighth die carrier.

Preferably, the unit V comprises ninth die carriers arranged up and down and a tenth die carrier arranged between the two sets of ninth die carriers, wherein a boss is arranged on the inner side surface of each ninth die carrier, and a longitudinal positioning groove is formed in the inner side surface of each tenth die carrier.

As preferred scheme, the pore-forming mold core is spliced by public rectangular pipe and female rectangular pipe, public rectangular pipe one end is equipped with the draw-in groove, female rectangular pipe one end is equipped with the card strip, public rectangular pipe and female rectangular pipe all are equipped with the degree a little of 2.5 thousandths by end to junction.

As a preferred scheme, screw holes are formed in the left side surface and the right side surface of each of the first die carrier, the second die carrier, the third die carrier, the fourth die carrier, the fifth die carrier, the sixth die carrier, the seventh die carrier, the eighth die carrier, the ninth die carrier and the tenth die carrier, the screw holes are formed through bolts in the unit I, the unit II and the unit III in a penetrating mode to form a cross beam, the screw holes are formed through bolts in the unit IV and the unit V in a penetrating mode to form a longitudinal beam, and the screw holes are formed through bolts in the unit I and the unit IV in a penetrating mode to enable the cross beam and the longitudinal beam to be spliced to form a frame.

As a preferred scheme, screw holes are formed in the upper surface and the lower surface of each of the unit I, the unit II, the unit III, the unit IV and the unit V, a plurality of groups of frames are overlapped and connected through bolts, and the wall plate mold with the thickness increased by a plurality of times is formed by splicing.

Preferably, a window frame and a door frame are arranged in the frame, and the window frame and the door frame have the same combined structure as the wallboard mould.

The utility model has the advantages that:

when a traditional mold is used for manufacturing wallboards, a corresponding cavity must be reserved aiming at the condition that a window needs to be installed on one wallboard and a door needs to be installed on the other wallboard, one set of mold can only correspond to the wallboard with one shape, and various different molds need to be used corresponding to wallboards with different shapes;

the mould units of the utility model are all hollow structures, so that the weight of the mould body can be reduced, the mould material can be saved, the manufacturing cost of the mould can be reduced, the mould assembling space can be increased, the operation difficulty can be reduced, and the mould units are convenient to hoist or carry;

three, the utility model discloses a mould can be used to the production preparation of high porosity wallboard, and the one hand is that the mould comprises the three-layer die carrier, can be used to pour the middle wallboard that is equipped with the cystosepiment, and on the other hand is equipped with the pore-forming mold core of plug-in the upper and lower layer die carrier of crossbeam, can make the double row hole on the crossbeam, should set up and make the mould have the multifunctionality, can produce the wallboard of high porosity, is applicable to the various wallboards and includes the pouring production of light wallboard.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, do not constitute an undue limitation on the invention.

FIG. 1 is a schematic structural diagram of an adjustable wallboard mold;

FIG. 2 is a schematic structural view of unit I;

FIG. 3 is a schematic diagram of the structure of unit II;

FIG. 4 is a schematic structural view of cell III;

FIG. 5 is a schematic diagram of the structure of unit IV;

FIG. 6 is a schematic structural view of unit V;

FIG. 7 is a schematic view of a pore-forming mold core;

FIG. 8 is a schematic diagram of the connection of two adjacent units II;

reference numerals: 1. the device comprises a cross beam, 2, a longitudinal beam, 3, a pore-forming mold core, 301, a male rectangular tube, 302, a female rectangular tube, 303, a clamping groove, 304, a clamping strip, 4, a unit I, 401, a first mold frame, 402, a second mold frame, 5, a unit II, 501, a third mold frame, 502, a fourth mold frame, 6, a unit III, 601, a fifth mold frame, 602, a sixth mold frame, 7, a unit IV, 701, a seventh mold frame, 702, an eighth mold frame, 8, a unit V, 801, a ninth mold frame, 802, a tenth mold frame, 9, a mold hole, 10, a transverse positioning groove I, 11, a chamfer, 12, a transverse positioning groove II, 13, a boss, 14, a longitudinal positioning groove, 15, a screw hole, 16, a bolt, 17, a window frame, 18 and a door frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions will be clearly and completely described below with reference to the drawings and embodiments of the present invention. The solution of the present invention is described in detail below with reference to specific embodiments:

as the embodiment of the utility model discloses, as shown in fig. 1, wallboard mould with adjustable, include by a pair of hollow crossbeam 1 about and a pair of hollow longeron 2 concatenation form frame, wear to establish pore-creating mold core 3 between two crossbeams 1, crossbeam 1 is formed by the combination of unit I4 that is located both ends, a plurality of unit II 5 and unit III 6 that is located the centre, longeron 2 is formed by the combination of unit IV 7 that is located both ends, a plurality of unit V8 that is located the centre, and this mould length, width, height dimension all can adopt the structure of assembling of polylith unit module, have realized the multi-purpose function of a mould.

As shown in fig. 2, unit i 4 includes the first die carrier 401 that the longitudinal symmetry set up, sets up the second die carrier 402 between two sets of first die carriers 401, be equipped with a nib 9 that runs through the side on the first die carrier 401, the medial surface of second die carrier 402 is equipped with horizontal constant head tank i 10 between nib 9 from top to bottom, horizontal constant head tank i 10 with the one end that longeron 2 is connected is equipped with chamfer 11, because unit i 4 sets up at crossbeam 1 both ends department, needs to dock with longeron 2, consequently needs to set up chamfer 11.

As shown in fig. 3, the unit ii 5 includes a third mold frame 501 and a fourth mold frame 502, the third mold frame 501 is disposed vertically symmetrically, the fourth mold frame 502 is disposed between the two sets of third mold frames 501, two mold holes 9 penetrating through the side surface are disposed on the third mold frame 501, and a transverse positioning groove ii 12 is disposed on the inner side surface of the fourth mold frame 502 between the upper and lower sets of mold holes 9.

As shown in fig. 4, the unit iii 6 includes a fifth mold frame 601 disposed vertically symmetrically, and a sixth mold frame 602 disposed between two sets of the fifth mold frame 601, the fifth mold frame 601 is provided with three mold holes 9 penetrating through the side surface, and the inner side surface of the sixth mold frame 602 is provided with a transverse positioning groove ii 12 between the upper and lower sets of the mold holes 9.

As shown in fig. 5, the unit iv 7 includes seventh mold frames 701 arranged up and down, and an eighth mold frame 702 arranged between two sets of the seventh mold frames 701, a boss 13 is provided on an inner side surface of the seventh mold frame 701, a chamfer 11 is provided at one end of the boss 13 connected to the cross beam 1, and a longitudinal positioning groove 14 is provided on an inner side surface of the eighth mold frame 702.

As shown in fig. 6, the unit v 8 includes a ninth mold frame 801 arranged up and down, and a tenth mold frame 802 arranged between two sets of the ninth mold frame 801, wherein a boss 13 is arranged on an inner side surface of the ninth mold frame 801, and a longitudinal positioning groove 14 is arranged on an inner side surface of the tenth mold frame 802.

As shown in fig. 7, pore-forming mold core 3 is spliced by public rectangular pipe 301 and female rectangular pipe 302, public rectangular pipe 301 one end is equipped with draw-in groove 303, female rectangular pipe 302 one end is equipped with card strip 304, public rectangular pipe 301 and female rectangular pipe 302 all are equipped with the degree a little of 2.5 ‰tothe junction by the end, and the setting of two sections and degree a little is all for convenient drawing of patterns, and secondly, adopt the sealed semicircle ring of silica gel to seal between pore-forming mold core 3 and nib 9.

Furthermore, an integrated mold can be adopted between the first mold frame 401 and the second mold frame 402 of the unit I4, a split combined mold can also be adopted, and when the combined type is adopted, the connection between the upper layer and the lower layer can be realized by a pin type structure of a positioning pin and a positioning hole to realize quick positioning and installation.

Further, set up horizontal constant head tank I10, horizontal constant head tank II 12, the purpose of longitudinal positioning groove 14 on the mould is: conveniently pour the wallboard of coming out and fix, usable mounting is inlayed and is fixed into the constant head tank, this setting has simple to operate, and is swift, pleasing to the eye advantage, here horizontal constant head tank I10, horizontal constant head tank II 12, the difference of longitudinal positioning groove 14 only lies in transversely being located the crossbeam, vertically being located the longeron, horizontal constant head tank I10, the difference of horizontal constant head tank II 12 lie in the one end of horizontal constant head tank I10 and be equipped with chamfer 11, the effect in three kinds of grooves is all the same.

Further, the connection between the adjacent units is realized by the following structure and mode:

as shown in fig. 8, screw holes 15 are formed in the left side surface and the right side surface of each of the first mold frame 401, the second mold frame 402, the third mold frame 501, the fourth mold frame 502, the fifth mold frame 601, the sixth mold frame 602, the seventh mold frame 701, the eighth mold frame 702, the ninth mold frame 801 and the tenth mold frame 802, a cross beam 1 is formed by combining the units i 4, the units ii 5 and the units iii 6 through the screw holes 15 by bolts 16, a longitudinal beam 2 is formed by combining the units iv 7 and the units v 8 through the screw holes 15 by bolts 16, and a frame formed by splicing the cross beam 1 and the longitudinal beam 2 is formed by combining the units i 4 and the units iv 7 through the screw holes 15 by bolts 16.

As another embodiment of the present invention, for producing wall panels of different thicknesses:

the upper surface and the lower surface of the unit I4, the unit II 5, the unit III 6, the unit IV 7 and the unit V8 are respectively provided with a screw hole 15, a plurality of groups of frames are overlapped and connected by bolts 16, and the wall plate mold with the thickness increased by a plurality of times is spliced.

As another embodiment of the present invention, for producing wall panels of different lengths and widths:

according to the length and the width of the specific wall board, two groups of units I, II 5 and III 6 can be selected, or two groups of units I and II 5 can be selected, or two groups of units I and III 6 can be selected, so that splicing of various lengths can be realized; two groups of units IV 7 and a plurality of groups of units V8 can be selected to realize splicing with different widths; it should be noted that the various sizes of the units mentioned in the present invention do not limit the arrangement of the other size unit modules, and the unit modules having four holes, five holes or even more holes may be arranged.

As another embodiment of the utility model, be used for producing the wallboard that is equipped with structures such as door, window:

a window frame 17 and a door frame 18 are arranged in the frame, the window frame 17 and the door frame 18 have the same combined structure of wallboard molds, and the length and the width can be combined according to specific sizes; furthermore, the distance between the adjacent die holes 9 is the same, so that the penetration of the rectangular pipes of the pore-forming die core 3 cannot be influenced during free combination, and the die outer frame is convenient to correspond to the holes of the window frame and the door frame one by one.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Wallboard mould with adjustable, its characterized in that includes the frame that forms by a pair of hollow crossbeam (1) about and a pair of hollow longeron (2) concatenation about, wears to establish pore-creating mold core (3) between two crossbeams (1), crossbeam (1) is formed by unit I (4) that is located both ends, a plurality of unit II (5) and unit III (6) combination that are located the centre, longeron (2) are formed by unit IV (7) that are located both ends, a plurality of unit V (8) combination that are located the centre.

2. The adjustable wallboard mold according to claim 1, wherein the unit I (4) comprises first mold frames (401) which are arranged in an up-and-down symmetrical manner, and a second mold frame (402) which is arranged between the two sets of first mold frames (401), a mold hole (9) which penetrates through the side surface is formed in each first mold frame (401), a transverse positioning groove I (10) is formed in the inner side surface of each second mold frame (402) between the upper mold hole and the lower mold hole (9), and a chamfer (11) is formed in one end, connected with the longitudinal beam (2), of each transverse positioning groove I (10).

3. The adjustable wallboard mold according to claim 2, wherein the unit II (5) comprises third mold frames (501) which are arranged in an up-and-down symmetrical manner, and a fourth mold frame (502) which is arranged between the two groups of third mold frames (501), the third mold frame (501) is provided with two mold holes (9) which penetrate through the side surface, and the inner side surface of the fourth mold frame (502) is provided with a transverse positioning groove II (12) between the upper and lower groups of mold holes (9).

4. The adjustable wallboard mold according to claim 3, wherein the unit III (6) comprises fifth mold frames (601) which are arranged in an up-and-down symmetrical manner, and a sixth mold frame (602) which is arranged between two sets of the fifth mold frames (601), the fifth mold frame (601) is provided with three mold holes (9) which penetrate through the side surface, and the inner side surface of the sixth mold frame (602) is provided with a transverse positioning groove II (12) between the upper and lower sets of the mold holes (9).

5. The adjustable wallboard mold according to claim 4, wherein the unit IV (7) comprises a seventh mold frame (701) arranged up and down and an eighth mold frame (702) arranged between two sets of the seventh mold frames (701), a boss (13) is arranged on the inner side surface of the seventh mold frame (701), a chamfer (11) is arranged at one end, connected with the cross beam (1), of the boss (13), and a longitudinal positioning groove (14) is arranged on the inner side surface of the eighth mold frame (702).

6. The adjustable wallboard mold according to claim 5, wherein the unit V (8) comprises ninth mold frames (801) arranged up and down and a tenth mold frame (802) arranged between two sets of the ninth mold frames (801), wherein a boss (13) is arranged on the inner side surface of each ninth mold frame (801), and a longitudinal positioning groove (14) is arranged on the inner side surface of each tenth mold frame (802).

7. The adjustable wallboard mold of claim 6, wherein the pore-forming mold core (3) is spliced by a male rectangular tube (301) and a female rectangular tube (302), a clamping groove (303) is formed in one end of the male rectangular tube (301), a clamping strip (304) is formed in one end of the female rectangular tube (302), and the male rectangular tube (301) and the female rectangular tube (302) are provided with a slight degree of 2.5 per mill from the end to the joint.

8. The adjustable wallboard mold according to claim 7, wherein screw holes (15) are arranged on the left and right side surfaces of the first mold frame (401), the second mold frame (402), the third mold frame (501), the fourth mold frame (502), the fifth mold frame (601), the sixth mold frame (602), the seventh mold frame (701), the eighth mold frame (702), the ninth mold frame (801) and the tenth mold frame (802), the unit I (4), the unit II (5) and the unit III (6) are combined to form a cross beam (1) by passing through the screw holes (15) through bolts (16), the units IV (7) and V (8) are combined to form the longitudinal beam (2) by passing through the screw holes (15) through bolts (16), and the cross beam (1) and the longitudinal beam (2) are spliced to form a frame by penetrating the screw holes (15) between the unit I (4) and the unit IV (7) through bolts (16).

9. The adjustable wallboard mold of claim 8, wherein the upper and lower surfaces of the unit i (4), the unit ii (5), the unit iii (6), the unit iv (7) and the unit v (8) are all provided with screw holes (15), and a plurality of groups of the frames are stacked and connected by bolts (16) to splice the wallboard mold with the thickness increased by a plurality of times.

10. The adjustable wallboard mold of claim 9, wherein a window frame (17) and a door frame (18) are provided in the frame, and the window frame (17) and the door frame (18) have the same combination structure as the wallboard mold.

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