JP4434354B2 - Cement board manufacturing equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus for producing a cement board, and more particularly to an apparatus for producing a cement board obtained by curing and molding a fast-curing cement composition.
[0002]
[Prior art]
Cement plate materials obtained by curing and molding a cement composition are used in a wide variety of applications such as architectural interior materials or exterior materials. By using a fast-hardening cement composition containing at least cement, water, and filler for the cement board, the cement board can be manufactured with high productivity. Moreover, the manufacturing apparatus using the endless belt type moving conveyor which conveys an unhardened quick-hardening cement composition is known for the manufacturing apparatus of the said cement board material.
[0003]
In order to cure and mold an uncured curable composition that is in a fluid state, such as the cement composition described above, it is necessary to have a defining means that defines the flow width of the uncured curable composition supplied to the moving conveyor. It is said. A plate material manufacturing apparatus that has this defining means and that manufactures a plate material from an uncured curable composition includes a plate material manufacturing apparatus disclosed in JP-A-1-299904, and JP-A-57-91252. The board | plate material manufacturing apparatus disclosed by 1 is known.
[0004]
A plate material manufacturing apparatus disclosed in JP-A-1-299904 includes a pair of endless belt-type side belts that are arranged on both sides of the moving conveyor as the defining means and move in synchronization with the moving conveyor. ing. This plate material manufacturing apparatus supplies a curable composition composed of a binder having high temperature fluidity such as asphalts and plastic resins and a material for civil engineering and construction to a moving conveyor in a heated state to manufacture a plate material. Device.
[0005]
Since this plate material manufacturing apparatus includes a side belt that moves in synchronization with the moving conveyor, the flow width of the uncured curable composition can be defined for a relatively long time, so that it is relatively difficult to cure. It can be used for the production of a plate formed from a curable composition that requires time.
[0006]
Further, the plate material manufacturing apparatus disclosed in Japanese Patent Application Laid-Open No. 57-91252 is a rubber plate material manufacturing apparatus, and a pair of guide plates disposed on both sides of the movable conveyor as the defining means, and the guides. And a hot air blowing device that blows hot air from both sides of the moving conveyor to promote curing by heating while maintaining the flow width of the uncured curable composition defined by the plate.
[0007]
This plate material manufacturing apparatus cures to the extent that the width of the plate material can be defined in a short time, and can maintain the width of the plate material defined by the guide plate by blowing hot air, and the curing is accelerated by heating. It can use for manufacture of the board | plate material formed from the curable composition made.
[0008]
[Problems to be solved by the invention]
However, the plate material manufacturing apparatus disclosed in Japanese Patent Application Laid-Open No. 1-299904 requires a side belt driving device for moving the side belt in synchronization with the moving conveyor. The structure becomes complicated. And when changing the operation speed of a moving conveyor, the operation speed of a side belt must be adjusted each time. Moreover, when changing the flow width of the uncured curable composition supplied on the moving conveyor, it is not easy to change the position of the side belt. Therefore, when the manufacturing apparatus is used for manufacturing a cement board, it is disadvantageous for manufacturing a wide variety of cement boards with high productivity.
[0009]
Further, the plate material manufacturing apparatus disclosed in Japanese Patent Application Laid-Open No. 57-91252 regulates the flow width of the uncured curable composition by a pair of guide plates, so that the flow width can be easily changed. However, since the hot air spraying device is provided on both sides of the moving conveyor on the downstream side of the guide plate, the structure of the entire manufacturing device is also complicated.
[0010]
Moreover, it is difficult for the hot air in the manufacturing apparatus to uniformly press the side surface of the curable composition. Therefore, there are cases where it is disadvantageous to produce a plate material from a slurry-like curable composition such as a cement composition. For example, when the manufacturing apparatus is used for producing a cement plate material, There is a possibility of surface bulges.
[0011]
The present invention has been made in view of the above matters, and an object of the present invention is to provide an apparatus for manufacturing a cement board material that is simple in structure and can be realized at low cost, and that is suitable for manufacturing a wide variety of cement board materials. There is to do.
[0012]
[Means for Solving the Problems]
This invention is a manufacturing apparatus of a cement board, and it is set as the structure shown below as a means to solve the said subject.
That is, the cement board production apparatus of the present invention transports the uncured fast-curing cement composition in the cement board production apparatus for curing and molding a fast-curing cement composition containing at least cement, water, and filler. And a pair of side plates disposed on both sides of the moving conveyor to define the flow width of the uncured fast-curing cement composition on the moving conveyor.
[0013]
According to the above configuration, the flow width of the fast-setting cement composition can be defined from a simple structure in which the side plate is disposed on the moving conveyor, and only the side plate is disposed on the existing moving conveyor. Realization at cost is possible.
[0014]
The fast-hardening cement composition is a cylindrical paste having an inner diameter of 50 mm and a height of 50 mm. The fast-hardening cement composition is filled into a test paste container, and the test paste container is placed on a flow table defined in JIS R5201. When the slump flow test is performed by pulling out the test paste container and applying the falling motion to the flow table 10 times in 10 seconds, the spread diameter of the fast-hardening cement composition spread on the flow table is 160 mm or less. It is characterized by becoming.
[0015]
When the quick-hardening cement composition satisfies the above conditions, if the gap between the moving conveyor and the side plate is 1.5 mm or less, the surface tension of the unhardened quick-hardening cement composition works in this gap, The fast-curing cement composition does not leak from the gap.
[0016]
Therefore, the side plate can be disposed at a non-contact position with a gap of 1.5 mm or less with respect to the moving conveyor, and damage to the moving conveyor due to friction between the side plate and the moving conveyor. Can be prevented. Furthermore, you may provide the leak prevention means which prevents the leakage of the said unhardened quick-hardening cement composition from the clearance gap which arose between the side plate and the moving conveyor.
[0017]
The mobile conveyor is preferably in a form that does not penetrate, leak, or adhere to the cement composition, and can withstand the curing conditions when heating is advantageous as the curing conditions for the cement composition. Is desirable.
[0018]
The movable conveyor includes a main belt that is a flexible endless belt, two or more rotating pulleys that support the main belt, a rotation driving unit that rotates at least one of the rotating pulleys, and a rotating pulley. The moving conveyor comprised from the frame which supports the main belt located in the middle from the back side can be illustrated.
[0019]
In addition to vulcanized rubber, butadiene synthetic rubber, Teflon and other resins, the main belt is made of stainless steel, high-tensile steel, etc. Examples thereof include steel or glass cloth.
[0020]
It is desirable that the side plate has a form that does not permeate, leak, or adhere to the cement composition, like the moving conveyor. Further, the side plate is preferably a material that can withstand heating of the side plate in order to increase the curing rate of the uncured cement composition. Further, the side plate may be configured so that it can be easily repositioned and fixed to a desired position that approaches and separates from the central axis in the moving direction of the moving conveyor.
[0021]
The length of the side plate varies depending on the type of cement composition, the curing conditions, the operating state of the moving conveyor, etc., but in order to define the flow width of the fast-curing cement composition defined in the slump flow test. Depending on the moving speed of the moving conveyor, a length that can be restrained for about 5 minutes is sufficient.
[0022]
When the side plate is placed in contact with the moving conveyor, the side plate may be formed of a softer material than the moving conveyor in order to prevent damage to the moving conveyor due to the contact of the side plate, or A sliding member that improves the sliding between the side plate and the moving conveyor and reduces the frictional resistance with the moving conveyor may be provided at the contact portion of the side plate with the moving conveyor. Examples of the sliding member include a tape whose surface is processed with a fluororesin.
[0023]
The leakage preventing means prevents leakage of the uncured fast-curing cement composition when the side plate is disposed with a gap between the moving conveyor. Examples of the leakage preventing means include airflow and pressure that uniformly press the gap, or a closing member such as a pad that closes the gap.
[0024]
The fast-hardening cement composition is a mixture containing at least cement, water, and a filler, and an appropriate additive may be blended in addition to these. The fast-hardening cement composition may be a cement composition containing a fast-hardening cement, or a cement composition in which an additive such as a hardening accelerator that accelerates hardening is added to a cement that does not have fast-hardening. There may be.
[0025]
As the above cement, portland cement such as ordinary cement, early strength cement, super early strength cement, mixed cement such as blast furnace cement, silica cement, fly ash cement, alumina cement, jet cement, QT cement, environmentally friendly cement Examples include fast-hardening cements such as (eco-cement), erwin cement, alinite, and berylnite.
[0026]
The above fillers can be blended for the purpose of reinforcement, processability, weight reduction, weight gain, etc., wood fillers such as wood chips and wood fibers, pulp fibers, other inorganic / organic reinforcing fibers, inorganic / organic lightweights Aggregates, crushed stones, fine and coarse aggregates and the like can be exemplified. What is necessary is just to set the kind and compounding quantity of these illustrated fillers arbitrarily with respect to the performance of the target cement board material.
[0027]
In addition, depending on the curing conditions of the cement composition after molding, a calcium silicate-based plate material such as ALC (Autoclaved Lightweight Concrete) can be produced. In such a case, the raw material is appropriately selected according to the final desired product form. select. The amount of water is determined in consideration of the specific gravity of the plate material to be obtained, desired strength, and the like. For example, the water / cement weight ratio is 20 to 300%.
[0028]
Furthermore, the cement composition in the present invention can contain various additives in addition to the curing accelerator. Examples of the various additives include slurry fluidizers, slurry viscosity modifiers, various dispersants, and the like. What is necessary is just to adjust the kind and compounding quantity of these according to the handling of the cement composition on a production line, and the performance of the desired product.
[0029]
In addition to the above-described configuration, the cement board manufacturing apparatus of the present invention may be provided with other means that are advantageous for manufacturing cement board. As this means, defoaming means for removing air bubbles contained in the uncured fast-curing cement composition supplied to the moving conveyor, or thickness control means for controlling the thickness of the cement composition on the moving conveyor to a desired thickness Examples thereof include a curing accelerating means for accelerating the curing of the cement composition on the moving conveyor, and a patterning means for applying a desired pattern to the surface of the cement composition whose thickness is controlled.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of a cement board manufacturing apparatus of the present invention will be described with reference to the accompanying drawings.
[0031]
As shown in FIGS. 1 and 2, the cement board manufacturing apparatus according to the present embodiment includes an endless belt type moving conveyor 3 to which an uncured fast-curing cement composition is supplied, and the fast-curing cement composition. In order to define the flow width, a pair of side plates 4 and 4 are provided on both sides of the moving conveyor 3.
[0032]
Furthermore, the cement board manufacturing apparatus in the present embodiment includes a continuous mixer 1 for kneading the raw materials of the cement composition to form a cement composition, and bubbles contained in the cement composition formed by the continuous mixer 1. The defoaming machine 2 to be removed is arranged on the upstream side of the moving conveyor 3. Further, on the moving conveyor 3, a thickness control plate 5 for controlling the thickness of the uncured cement composition supplied to the moving conveyor 3 to a desired thickness and the cement composition whose thickness is controlled are heated and cured. A plurality of heat curing boxes 6, 6.
[0033]
The continuous mixer 1 is a mixer in which various materials forming the cement composition are supplied in a predetermined amount or a predetermined ratio, and these materials are continuously kneaded. Although various forms can be considered for the continuous mixer 1, a rotary plate mixer known by a generic name of a pin mixer or a pinless mixer is used from the viewpoint of stable kneadability.
[0034]
The defoamer 2 is a defoamer capable of continuously defoaming the cement composition formed by the continuous mixer 1. Various forms can be considered for the defoaming machine 2, and a defoaming machine that breaks bubbles in the cement composition by striking the cement composition formed by kneading, or a cement by shearing the cement composition. A defoaming machine for defoaming bubbles in the composition is used.
[0035]
The moving conveyor 3 includes a main belt 3a that is an endless belt made of synthetic rubber to which the cement composition defoamed by the defoaming machine 2 is supplied, and rotating pulleys 3b and 3b that support the main belt 3a at two locations. The main belt driving motor 3c, which is connected to one of the rotating pulleys 3b and 3b and moves the main belt 3a by rotating the rotating pulley 3b, and the main belt 3a to which the cement composition is supplied. Frame 3d for supporting the surface (outward side) from the back side.
[0036]
The side plates 4 and 4 are stainless steel plates and are supported by a plurality of arms 4a, 4a,... Arranged on the frame 3d at desired positions separated from the central axis in the moving direction of the moving conveyor 3. Yes. The arms 4a, 4a, ... are configured so that the side plates 4, 4 can be arranged at desired positions approaching and separating from the central axis, although not shown. Further, the side plates 4 and 4 may be provided with heating devices for heating the side plates 4 and 4 at appropriate positions.
[0037]
As shown in FIG. 3, the side plates 4 and 4 are arranged so as to be in contact with the main belt 3a through a sliding member 7 which is bonded to one side of the side plate 4 and whose surface is processed with fluororesin. Alternatively, as shown in FIG. 4, the gap between the side plate 4 and the main belt 3a is set to 1.5 mm or less, and it is arranged so as not to leak the uncured cement composition due to surface tension. May be.
[0038]
Further, as shown in FIG. 5, the side plates 4, 4 have a closed space defined by a space (A portion in the figure) formed by the side plate 4, the frame 3d, and the arms 4a, 4a,. By appropriately setting the atmospheric pressure of the space, leakage of the uncured cement composition may be prevented, or by blowing air from the space toward the central axis of the moving conveyor 3, uncured cement Leakage of the composition may be prevented.
[0039]
Further, as shown in FIG. 6, the side plates 4, 4 fill a gap between the side plate 4 and the main belt 3 a on one side of the side plate 4 facing the main belt 3 a, and A leak-proof pad 8 may be provided. Also in this case, the sliding member 7 may be adhered to the leak-proof pad 8 to improve the sliding with the main belt 3a.
[0040]
The heating curing boxes 6, 6... Are heating devices in which a heating device such as an infrared heating device is arranged in a casing that covers the outward path side of the main belt 3a. The heating by the heat curing boxes 6, 6... Is appropriately set depending on conditions such as the material of the main belt 3 a, the curing conditions of the cement composition, or the operating conditions of the moving conveyor 3.
[0041]
Next, the operation state of the cement board manufacturing apparatus according to the present embodiment will be described by taking as an example a case where a concrete board is manufactured from a cement composition containing an environmentally conscious cement (eco-cement) which is a kind of fast-hardening cement. To do.
[0042]
Eco-cement uses calcium chloroaluminate (11CaO · 7Al ₂ O ₃ · CaCl), a fast-setting hydraulic mineral by using industrial waste containing chlorine as the main component, such as municipal waste incineration ash and sewage sludge. ₂ ) Fast-hardening cement containing. The strength of concrete using eco-cement is equal to or higher than that of concrete using ordinary cement and has a fast setting time of 20 to 40 minutes. Suitable for doing.
[0043]
The ecocement is continuously supplied to the continuous mixer 1 at a predetermined ratio together with water and filler. At this time, the ratio of each material is supplied to the continuous mixer 1 in such a ratio that the spread diameter in the slump flow test is 160 mm or less and a ratio suitable for a cement board material as a product.
[0044]
Each said material supplied to the continuous mixer 1 is knead | mixed by the continuous mixer 1, and becomes an eco-cement composition. The kneaded ecocement composition is continuously supplied from the continuous mixer 1 to the defoaming machine 2, and bubbles mixed during kneading are removed from the ecocement composition. The defoamed ecocement composition is supplied from the defoamer 2 to the moving conveyor 3.
[0045]
The moving conveyor 3 is operated in the direction of the arrow X1, and this operation is performed by supplying the eco-cement composition supplied from the defoamer 2, the thickness of the cement composition controlled by the thickness control plate 5, and heating. The main belt 3a is set to move at an optimum moving speed according to various conditions such as the hardening speed of the ecocement composition promoted by the curing boxes 6, 6.
[0046]
The uncured ecocement composition supplied to the moving conveyor 3 is first defined in flow width by the side plates 4, 4, and then the thickness is controlled by the thickness control plate 5 to be a predetermined thickness. In this way, the uncured ecocement composition is formed into a plate shape and is conveyed by the moving conveyor 3 while maintaining this shape.
[0047]
Since the side plates 4 and 4 are configured as described above with reference to FIGS. 3 to 6, the uncured ecocement composition is formed of the side plates 4 and 4 and the main belt 3 a regardless of the presence or absence of a gap. No leakage from between.
[0048]
Since the uncured ecocement composition having a controlled width and thickness has a fast curing property, it is cured while being conveyed by the moving conveyor 3, and already has a plate-like shape near the end of the side plates 4 and 4. Is hard enough to maintain.
[0049]
The eco-cement composition hardened to such an extent that the shape can be maintained is conveyed by the moving conveyor 3 and passes through the heat curing boxes 6, 6. At this time, curing of the ecocement composition is further promoted.
[0050]
The eco-cement composition that has passed through the heat curing boxes 6, 6... Is transported to a cutting process provided after the end of the moving conveyor 3, where it is cut into a predetermined length. The cut liquid cement composition is then transported to a curing process or the like for full-scale curing, and becomes a concrete board as a final product.
[0051]
In order to change the flow width of the uncured ecocement composition by the side plates 4, 4, the arms 4 a, 4 a... Are adjusted to a desired position separated from the central axis in the moving direction of the moving conveyor 3. The positions of the side plates 4 and 4 may be changed.
[0052]
As described above, the cement board manufacturing apparatus according to the present embodiment has a configuration in which the flow width of the uncured cement composition is defined by the side plates 4 and 4, and thus the flow width of the uncured cement composition is easy. It is possible to produce a wide variety of cement boards.
[0053]
In addition to the above-described configuration, the cement plate manufacturing apparatus according to the present embodiment limits the cement composition to a condition that satisfies the predetermined conditions in the slump flow test. Therefore, the side plate 4 and the main belt 3a are It may be in contact or may have a gap of 1.5 mm or less, and in any case, leakage of the cement composition can be prevented.
[0054]
【The invention's effect】
The cement board manufacturing apparatus of the present invention has a flow width of the fast-hardening cement composition by arranging a pair of side plates on both sides of the moving conveyor on a moving conveyor that transports an uncured quick-hardening cement composition. Therefore, the location of the side plate can be easily changed, which is suitable for manufacturing a wide variety of cement plate materials.
[0055]
In addition, the cement board manufacturing apparatus of the present invention can define the flow width only by fixing the side plate at a predetermined position, so that the structure of the entire manufacturing apparatus can be simplified and the cost can be reduced. Is possible.
[0056]
In addition, since the fast-hardening cement composition used in the cement board manufacturing apparatus of the present invention is a fast-hardening cement composition having a spread diameter of 160 mm or less by the slump flow test, a gap between the side plate and the moving conveyor is provided. It can be opened up to 1.5 mm, and damage to the moving conveyor due to friction with the side plate can be prevented.
[0057]
Furthermore, the cement board manufacturing apparatus of the present invention is provided with a leakage preventing means for preventing leakage of the uncured cement composition from the gap between the side plate and the movable conveyor, thereby uncured cement supplied to the movable conveyor. Leakage of the composition can be prevented more reliably.
[Brief description of the drawings]
FIG. 1 is a schematic side view showing an embodiment of an apparatus for producing a cement board material of the present invention.
FIG. 2 is a schematic top view showing an embodiment of the cement board manufacturing apparatus of the present invention.
FIG. 3 is an enlarged cross-sectional view of a main part showing an example of an arrangement form of side plates in the cement board manufacturing apparatus of the present invention.
FIG. 4 is an enlarged cross-sectional view of a main part showing another example of an arrangement form of side plates in the cement board manufacturing apparatus of the present invention.
FIG. 5 is an enlarged cross-sectional view of a main part showing another example of the arrangement of the side plates in the cement board manufacturing apparatus of the present invention.
FIG. 6 is an enlarged cross-sectional view of a main part showing another example of the arrangement of the side plates in the cement board manufacturing apparatus of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Continuous mixer 2 Defoamer 3 Mobile conveyor 3a Main belt 3b Rotating pulley 3c Main belt drive motor 3d Frame 4 Side plate 4a Arm 5 Thickness control plate 6 Heat curing box 7 Sliding member 8 Leak-proof pad X1 Operation direction of mobile conveyor Arrow A indicating the space surrounded by the frame, arm, and side plate

Claims (4)

In a cement board manufacturing apparatus for curing and molding a fast-curing cement composition containing at least cement, water and filler,
A continuous mixer for kneading at least the cement, water and filler to form the uncured fast-curing cement composition;
A defoaming machine that removes bubbles contained in the uncured fast-curing cement composition supplied from the continuous mixer by blowing or shearing bubbles.
A moving conveyor that conveys the uncured fast-curing cement composition supplied from the defoamer by an endless belt ;
In order to define the flow width of the uncured fast-curing cement composition on the moving conveyor , the endless belt of the moving conveyor is supported by arms disposed on both sides of the frame that supports the back surface of the conveying surface of the endless belt. An apparatus for producing a cement board, comprising: a pair of side plates. The fast-hardening cement composition is a cylindrical paste having an inner diameter of 50 mm and a height of 50 mm. The fast-hardening cement composition is filled into the test paste container, and the test paste container is placed on a flow table defined in JIS R5201. When the test paste container is pulled out and 10 times of falling motion is given to the flow table for 10 seconds,
The apparatus for producing a cement board material according to claim 1, wherein a spread diameter of the fast-setting cement composition spread on the flow table is 160 mm or less.   The said side plate is arrange | positioned in the non-contact position with respect to the said mobile conveyor, The manufacturing apparatus of the cement board material of Claim 1 characterized by the above-mentioned.   The manufacturing method of the cement board | plate material of Claim 3 provided with the leakage prevention means which prevents the leakage of the said unhardened quick-hardening cement composition from the clearance gap produced between the said side plate and the said mobile conveyor. apparatus.

Images