CN102172976A - Combined mould body of gypsum block mould - Google Patents

Abstract

The invention relates to a combined mould body of a gypsum block mould, a mounting plate of the combined mould body is horizontally arranged on a hollow baseframe, two transverse side plates and two longitudinal end plates are connected through fasteners to form a square cylinder body through encircling, the cylinder body is positioned on the mounting plate, N longitudinal partition plates are arranged in the cylinder body and used for dividing an inner cavity into N+1 mould cavities, N is a natural number which is not less than 2, the lower end of each mould cavity is in sliding fit with one horizontal baseplate, the lower side of each baseplate is connected with two ejector rods which extend downwards, penetrate through the mounting plate and are longitudinally arranged, and a lining plate is stuck on the inner side, which is near to the corresponding mould cavity respectively, of each end plate; and glass plates are utilized as the lining plates and the partition plates. After adopting the mould body, the glass plates are utilized as the lining plates and the partition plates, as is known to all, each glass plate is corrosion-resistant and high in degree of finish, and glass is less reacted with gypsum, therefore, even the using time of the mould is longer, the cavity wall of each mould cavity in the mould is quite corrosion-resistant, the degree of finish of the surface of the cavity wall of each mould cavity is higher, the mould sticking probability of the cavities walls of the mould cavities is greatly reduced, on the one hand, the degree of finish of the surface of a gypsum block finished product is higher, and the rejection rate is reduced, on the other hand, the cleaning workload of the mould is reduced, and the production efficiency is improved.

Description

Gypsum block die sectional die body

Technical field

The present invention relates to a kind of gypsum block die sectional die body.

Background technology

Gypsum block is one of green structural material of wideling popularize of China recent years.For gypsum block, existing certain mechanical performance requirement also has strict requirement to its size, precision and surfacing fineness simultaneously.

At present, the equipment of domestic production gypsum block, be divided into two classes by the depanning mode difference of gypsum block: a class is an on-mode, another kind of is the extruding ejecting type.

The extruding ejecting type now is the main flow mode of production, the equipment of production gypsum block under this mode, mold structure of equipped mould is in it: the installing plate level places on the hollow support, two horizontal side plates, surround a square cylinder by the securing member connection between two vertical end plates, cylindrical shell is landed on the installing plate, N longitudinal baffle is set in the cylindrical shell its inner chamber is separated into N+1 die cavity, N is not less than 2 natural number, the lower end of each die cavity horizonal base plate that is slidingly matched, the downside of each base plate is connected to two push rods that extend and run through installing plate, each end plate downwards with vertically arranging, each dividing plate all adopts metallic plate.The operation principle of described equipment is: plaster of Paris (or reclaimed gypsum) is stirred into slurry, again slurry is poured in the square cylinder of vertical upper shed, after treating that the first coalescence of gypsum reaches certain intensity, by hydraulic transmission mode, drive base plate with push rod and rise, the gypsum block finished product of moulding is ejected, then, by hydraulic transmission mode, drive base plate decline return again, wait for cast next time with push rod.Because the chemical attack effect of gypsum, the abrasive action that each base plate moves and produced along corresponding die cavity chamber wall, therefore, even mould is shorter service time, also easy corrosion of die cavity chamber wall in it and sticking to mould, make the surface of gypsum block finished product have rusty stain, more and more lower, the percent defective rising of surface smoothness first, second make the cleaning work amount of mould strengthen, reduced production efficiency.

Summary of the invention

Technical problem to be solved by this invention provides a kind of gypsum block die sectional die body that is fitted in the production gypsum block equipment, after adopting this mold, even mould is longer service time, die cavity chamber wall surface smoothness also quite corrosion-resistant, die cavity chamber wall in it is higher, greatly reduce the sticking to mould possibility of die cavity chamber wall, make the surface smoothness of gypsum block finished product higher first, percent defective descends, and second makes the cleaning work amount of mould reduce, and improved production efficiency.

For solving the problems of the technologies described above, the invention provides a kind of gypsum block die sectional die body, its structure is: the installing plate level places on the hollow support, two horizontal side plates, surround a square cylinder by the securing member connection between two vertical end plates, cylindrical shell is landed on the installing plate, N longitudinal baffle is set in the cylindrical shell its inner chamber is separated into N+1 die cavity, N is not less than 2 natural number, the lower end of each die cavity horizonal base plate that is slidingly matched, the downside of each base plate is connected to two push rods that extend and run through installing plate downwards with vertically arranging, each end plate is respectively pasted a liner plate, each liner plate near the inboard of corresponding die cavity, each dividing plate all adopts glass plate.

For can concise description for the purpose of the problem, below gypsum block die sectional die body of the present invention be all abbreviated as this mold.

This mold is fitted in the equipment of production gypsum block, can use.

After adopting this mold, each liner plate, each dividing plate all adopt glass plate, as everyone knows, glass plate is corrosion-resistant, highly polished, glass and gypsum seldom react, therefore, even mould is longer service time, die cavity chamber wall surface smoothness also quite corrosion-resistant, die cavity chamber wall in it is higher, greatly reduce the sticking to mould possibility of die cavity chamber wall, make the surface smoothness of gypsum block finished product higher first, percent defective descends, and second makes the cleaning work amount of mould reduce, and improved production efficiency.

As optimization of the present invention, each side plate is a composite plate structure, each side plate is formed by connecting by securing member by the inside and outside side template that reclines, side form backup plate, vertical respective side place corresponding to each dividing plate on each side template has the groove suitable with this dividing plate, groove on two side templates is corresponding one by one respectively on the position, per two tight dividing plates of plug-in mounting in the corresponding groove on the position.

Like this, the installation of dividing plate is comparatively firm, service life that can corresponding this mold of prolongation.

As further optimization of the present invention, the upper end of vertical respective side of each dividing plate respectively has a chamfering, the chamfering of the vertical respective side of each dividing plate, and the suitable corresponding recesses of this dividing plate between form a pit, equal briquetting suitable of filling in each pit with it;

The upside of each side template has ladder hole corresponding to the briquetting place of the vertical respective side of each dividing plate, ladder hole is made of first hole and second hole of vertically inside and outside connection, the diameter in first hole all installs a screw that spins with corresponding briquetting less than the diameter in second hole in each ladder hole.

Like this, the installation of dividing plate is more firm, can further prolong the service life of this mold.

Description of drawings

Fig. 1 is the vertical view of this mold;

Fig. 2 is A-A cutaway view of Fig. 1;

Fig. 3 is B-B cutaway view of Fig. 1;

Fig. 4 is the partial enlarged drawing of Q portion among Fig. 1;

Fig. 5 is the partial enlarged drawing of R portion among Fig. 3;

Fig. 6 is the partial enlarged drawing of S portion among Fig. 3.

The specific embodiment

Below in conjunction with accompanying drawing embodiments of the present invention are specifically described:

Referring to Fig. 1-Fig. 6: for the purpose of the concise description problem, not shown hollow support 1, installing plate 2 among Fig. 1.

Installing plate 2 levels of this mold place on the hollow support 1, two horizontal side plates 3, surround a square cylinder (piece number of not shown cylindrical shell in the accompanying drawing) by bolt a connection between two vertical end plates 4, cylindrical shell is landed on the installing plate 2, eight vertical square spacer plate 6 are set in the cylindrical shell its inner chamber is separated into nine die cavity M, the lower end of each the die cavity M horizonal base plate 9 that is slidingly matched, the downside of each base plate 9 is connected to two push rods 7 that extend and run through installing plate 2 downwards with vertically arranging, each end plate 4 is respectively pasted a square liner plate 5, each liner plate 5 near the inboard of corresponding die cavity M, each dividing plate 6 all adopts glass plate.

Each side plate 3 is a composite plate structure, each side plate 3 is formed by connecting by bolt a by the inside and outside side template that reclines 31, side form backup plate 32, have the groove 33 suitable corresponding to vertical respective side place of each dividing plate 6 on each side template 31 with this dividing plate 6, groove 33 on two side templates 31 is corresponding one by one respectively on the position, per two tight dividing plates 6 of plug-in mounting in the corresponding groove 33 on the position.

The upper end of vertical respective side of each dividing plate 6 respectively has a chamfering 61, the chamfering 61 of each dividing plate 6 vertical respective side, and the suitable corresponding recesses 33 of this dividing plate 6 between form a pit (piece number of not shown pit in the accompanying drawing), equal briquetting suitable 8 of filling in each pit with it; The upside of each side template 31 has ladder hole corresponding to briquetting 8 places of each dividing plate 6 vertical respective side, ladder hole is made of first hole 311 and second hole 312 of vertically inside and outside connection, the diameter in first hole 311 all installs a screw b who spins with corresponding briquetting 8 less than the diameter in second hole 312 in each ladder hole.

The thickness of dividing plate 6 is 19mm, and the angle between chamfering 61 and the horizontal plane is 62 degree.

This mold is fitted in the equipment of production gypsum block, can use.

Above-described only is one embodiment of the present invention.Should be pointed out that for the person of ordinary skill of the art under the prerequisite that does not break away from the principle of the invention, can also make conspicuous some conversion or alternative and remodeling, these also should be considered as belonging to protection scope of the present invention.Such as: directly be pressed in the upper end of dividing plate with square lath, to replace corresponding briquetting.

Claims (3)

1. gypsum block die sectional die body, the installing plate level places on the hollow support, two horizontal side plates, surround a square cylinder by the securing member connection between two vertical end plates, cylindrical shell is landed on the installing plate, N longitudinal baffle is set in the cylindrical shell its inner chamber is separated into N+1 die cavity, N is not less than 2 natural number, the lower end of each die cavity horizonal base plate that is slidingly matched, the downside of each base plate is connected to two push rods that extend and run through installing plate downwards with vertically arranging, it is characterized in that: each end plate is respectively pasted a liner plate, each liner plate near the inboard of corresponding die cavity, each dividing plate all adopts glass plate.

2. gypsum block die sectional die body according to claim 1, it is characterized in that: each side plate is a composite plate structure, each side plate is formed by connecting by securing member by the inside and outside side template that reclines, side form backup plate, vertical respective side place corresponding to each dividing plate on each side template has the groove suitable with this dividing plate, groove on two side templates is corresponding one by one respectively on the position, per two tight dividing plates of plug-in mounting in the corresponding groove on the position.

3. gypsum block die sectional die body according to claim 2 is characterized in that:

The upper end of vertical respective side of each dividing plate respectively has a chamfering, the chamfering of the vertical respective side of each dividing plate, and the suitable corresponding recesses of this dividing plate between form a pit, equal briquetting suitable of filling in each pit with it;

The upside of each side template has ladder hole corresponding to the briquetting place of the vertical respective side of each dividing plate, ladder hole is made of first hole and second hole of vertically inside and outside connection, the diameter in first hole all installs a screw that spins with corresponding briquetting less than the diameter in second hole in each ladder hole.

Images