KR20170119597A - Assembable Floor Heater Block - Google Patents

Abstract

The present invention relates to a device for manufacturing a square pipe joint type gauze fabric and a prefabricated gauze field produced by the manufacturing device, wherein a small amount of cement is mixed with yellow clay and a polymer is mixed therein, In this way, it is possible to control the far infrared rays in the manufacturing process and to force the appropriate measures when the far-infrared rays are not emitted. In particular, And the heat transfer efficiency is maximized by widening the cross-sectional area of the pipe near the bottom surface by allowing the heat to be transferred through the square pipe, thereby maximizing the heat transfer efficiency. And the like.

Description

[0001] The present invention relates to a square pipe joint type gauze manufacturing apparatus and an assembled floor heater block manufactured by the manufacturing apparatus,

The present invention relates to a device for manufacturing a square pipe joint type gauze fabric and a prefabricated gauze field produced by the manufacturing device, wherein a small amount of cement is mixed with yellow clay and a polymer is mixed therein, In this way, it is possible to control the far infrared rays in the manufacturing process and to force the appropriate measures when the far-infrared rays are not emitted. In particular, And the heat transfer efficiency is maximized by widening the cross-sectional area of the pipe near the bottom surface by allowing the heat to be transferred through the square pipe, thereby maximizing the heat transfer efficiency. And the like.

Generally, the ore (or ondol) is a unique method in Korea. In order to achieve a cold winter, we make a whale, a gullet on the whale, store the heat received through the fireplace in the guld and slowly emit radiant heat. It is an indoor heating system designed to be installed.

In recent years, the conventional sphere type method has been further improved so that the water tube is placed on the floor, and the concrete is heated and cured by curing.

In this type of pouring method, a water pipe is arranged in a zigzag shape on the upper surface of a heat insulating layer on the bottom surface, and the water pipe is fixed by wire or the like so that the water pipe does not flow.

However, such a conventional pouring method requires a water pipe to be fixed to the floor by wire or the like, and after curing the concrete after pouring the concrete, the pouring process is complicated and takes a long time.

In addition, when the balls need to be repaired due to leaking or clogging of the water pipe, it is difficult to repair the ball and the cost is increased because the ball must be broken and a new ball must be installed.

In general, the prefabricated structures are proposed in place of the ondol apparatus and the electric plate of the boiler installed in the floor, and a plurality of products are provided. For example, the prefabricated buildings are disclosed in the registration number room 1996-0000455 0133861.

In the prefabricated electric rolling mill of the above-mentioned Japanese Patent Application No. 1996-0000455, an ondol plate 1 provided with a bioceramic layer 2 on one surface of an upper part of a far infrared ray heater 5 provided with a heat insulating material 6 as a lower part is provided, The Far Infrared Ray Patent No. 10-2012-0133861 discloses an electric rolling stock which is inserted into a frame body 8 of a heating element body 4 so that a heater 5 and a heat insulating material 6 are installed at one side thereof, And the permanent magnet 3 is installed on the surface of the ondol plate 1 at a constant interval from the bioceramic layer 2. [

However, in the conventional electric rolling mill described above, only the effect of the bioceramics and the permanent magnet can be seen, and there is a problem that the ondol plate and the bio-ceramic layer are heavy in weight and inconvenient to move.

In addition, since all of the conventional ondol pipes are cylindrical pipes, there is a problem that the heat transfer efficiency is not maximized due to a small heat surface area approaching the bottom surface.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a cement mortar composition which is suitable for building construction by mixing a small amount of cement into yellow loess and blending polymer therein, In addition, it is made to contain jade in the production process, and real-time measurement of the far-infrared ray is performed by outputting an alarm at the time of shortening, so that the jade can be precisely contained. Especially, the rectangular pipe is inserted into the block, And at the same time maximizes the contact area with the bottom surface, thereby optimizing the heat transfer efficiency.

As means for achieving the above object,

The present invention relates to a loess-providing hopper (11) for storing loess for providing loess; A cement-providing hopper (12) storing cement to provide cement; A foaming agent hopper 13 for storing foaming agent to provide foaming agent; A hopper 14 for providing a polymer in which a polymer is stored to provide a polymer; A jaw-providing hopper 16 for storing jade to provide jade; A hopper 15 for storing water to provide water; Receiving loess from the loess-providing hopper 11, receiving cement from the cement-providing hopper 12, receiving foaming agent from the hopper-providing hopper 13, and discharging the polymer from the hopper 14 for polymer- A mixer 20 for receiving jade from the jade hopper 16, receiving water from the water feeder 15, mixing them, and outputting the loess dough; A block molding machine (40) for receiving the yellow loam dough outputted from the mixer and compressing and molding the dough according to the shape of the mold; And a pavement block formwork (41) which is installed inside the block molding machine and has a shape of a rectangular box form, and a square pipe is fixed to an inner center of the square formwork to create a pavement block in which a square pipe is built, The outer side of the square pipe inserted in the hollow pipe forms a plurality of concavo-convex concave and convex surfaces to reinforce the bonding force with the yellow loam dough; A pallet (50) located at a lower portion of the block molding machine and for moving a canopy block form falling from the block molding machine through a conveyor; A controller (70) for analyzing the measurement result of the far-infrared ray sensor and judging whether a far-infrared ray below the reference level is detected; And an error signal automatic output unit (100) for outputting an alarm signal under the control of the control unit; The automatic error signal output unit 100 includes a power supply unit 101 to which a power supply signal is applied by the power supply control unit when the manufacturing apparatus is operated; A far infrared ray error output unit 102 for switching the power supply circuit when the radiation value of the far infrared ray radiated from the yellow soil mixture is below a reference value; An oscillation transformer 103 for outputting a boosted alternating current by supplying electricity when the far-infrared ray error output unit is turned on and the power switch is turned on; A relay operation switching unit 108 connected to an output terminal of the oscillation transformer 103 and turned on by an electrical supply; A relay switch 107 installed at an output terminal of the switching unit for relay operation 108 and generating a magnetic force; A first circuit connection switch (sw1) for energizing the circuit while the iron wire is pulled by the relay switch (107); An error signal output power switch sw2 for supplying power to the error signal output control unit 140 and displaying an error signal when the relay wire 107 is pulled by the relay switch 107; The first circuit connection switch and the base end are connected to each other and the emitter end and the collector end are connected to the oscillation transformer 103 and the relay operation switching unit 108. The operation of the relay operation switching unit 108 pulls the iron piece If the first circuit connecting switch sw1 and the error signal output power switch sw2 are turned off while stopping the operation of the relay switch 107 after the switch is turned on while forming the closed circuit while the closed circuit is formed, And the relay switch 108 is turned on to turn on the first circuit connecting switch sw1 and the error signal output power switch sw2 so that an error signal is continuously output. And a switching unit 118 for maintenance.

The jaw hopper 16 is provided on a side surface of the mixer, and includes a first jaw reservoir 61 vertically installed to supply jaws through the internal space of the mixer, A second jaw reservoir 62 installed to be inclined and installed in the mixer body to supply the jaw supplied through the first jaw reservoir to the mixer and a second jaw reservoir 62 installed in the second jaw reservoir 62 And a jade supply adjusting screw 63 for adjusting the amount of jade supplied.

The jaw hopper 16 is provided on a side surface of the mixer and is vertically installed and has a first jaw reservoir 61 for supplying jaw to the jaw reservoir through an internal space thereof, A second open reservoir (62a) formed at one end of the second open reservoir, a second open reservoir (62a) installed at an end of the second reservoir, and a second reservoir (62a) installed at an end of the second reservoir to supply the jaw supplied through the first reservoir to the mixer A screw 60c formed at one end of the opening and closing part 60a for opening and closing the opening and closing hole 60a and a driving motor 60 provided at the other side of the screw 60c for rotating the screw 60c, And a boss 60d that is inserted into the screw so as to open and close the opening and closing hole 60a by switching the screw rotated in accordance with the rotation of the driving motor to be forward and backward.

In addition, the first and second jaws 61 and 62 are made of transparent acrylic material.

As described above, according to the present invention, a small amount of cement is mixed with yellow clay and a polymer is mixed therein, which is suitable for building construction. In particular, by providing a bubble generating means, strength is reinforced, In addition, it is necessary to include jade in the production process, and real-time measurement of the far-infrared ray is performed to output an alarm when the jade is noticed, so that the jade is precisely contained. Especially, the rectangular pipe is inserted into the block and assembled. The contact area is maximized and the heat transfer efficiency is optimized.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a square pipe joint type canopy of the present invention. FIG.
Fig. 2 is a block diagram of another embodiment of the square pipe joint type canopy of the present invention.
3 is an illustration of an example of the installation of a block for a square pipe joint type canopy of the present invention.
4 is an enlarged view of a block for a square pipe joint type canopy of the present invention.
Figure 5 is a block diagram of another embodiment of a square pipe combined canopy of the present invention.
6 is a conceptual view showing the square pipe assembly of the present invention.
7 is a conceptual diagram for explaining heat output after joining the square pipe of the present invention.
8 is a diagram illustrating an example of the operation of the automatic supply unit of the goat jar to be applied to the present invention.
Figure 9 is a first embodiment of the mold of the present invention.
Figure 10 is a second embodiment of the mold of the present invention.
11 is a configuration block diagram for outputting an error signal of the present invention;
12 is a block diagram of a circuit for automatically outputting an error signal according to the present invention.
FIG. 13 is a block diagram of a passenger jaw manual supply part applied to the present invention. FIG.
FIG. 14 is a view showing an example of operation of a manual roll supply unit of a trowel applied to the present invention; FIG.
FIG. 15 is a block diagram of an automatic supply unit for a trowel used in the present invention. FIG.
16 is an enlarged view of the main part of Fig.
17 is a diagram illustrating an example of operation of an automatic feeding device for a tentacle jar applied to the present invention.
Fig. 18 is a photograph of the canopy of the present invention. Fig.
Fig. 19 is a photograph of the present invention after construction. Fig.
20 is a photograph of the outside of the crown of the present invention.
Fig. 21 is a photograph showing a fire in the cradle of the present invention. Fig.
22 is a view showing an example in which the assembled canopy of the present invention is installed in a building;
Fig. 23 is an exemplary view showing the assembled hangar of the present invention installed on the floor; Fig.
24 is a view showing an example in which the assembled canopy of the present invention is installed on a wall surface.
Fig. 25 is an exemplary view in which the assembled canopy of the present invention is installed on a ceiling surface; Fig.
Fig. 26 is a product example in which an uneven surface is formed outside the square pipe of the present invention. Fig.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The configuration is omitted as much as possible, and a functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of the components that have been used in the prior art among the functional configurations that are not shown in the following description, The relationship between the elements and the components added for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments properly modify the terms so that those skilled in the art can clearly understand the present invention, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely illustrative of the technical idea of the present invention in order to efficiently explain the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a square pipe joint type canopy of the present invention. FIG.

Fig. 2 is a block diagram of another embodiment of the square pipe joint type canopy of the present invention.

3 is an illustration of an example of the installation of a block for a square pipe joint type canopy of the present invention.

4 is an enlarged view of a block for a square pipe joint type canopy of the present invention.

Figure 5 is a block diagram of another embodiment of a square pipe combined canopy of the present invention.

6 is a conceptual view showing the square pipe assembly of the present invention.

7 is a conceptual diagram for explaining heat output after joining the square pipe of the present invention.

8 is a diagram illustrating an example of the operation of the automatic supply unit of the goat jar to be applied to the present invention.

Figure 9 is a first embodiment of the mold of the present invention.

Figure 10 is a second embodiment of the mold of the present invention.

11 is a configuration block diagram for outputting an error signal of the present invention;

12 is a block diagram of a circuit for automatically outputting an error signal according to the present invention.

FIG. 13 is a block diagram of a passenger jaw manual supply part applied to the present invention. FIG.

FIG. 14 is a view showing an example of operation of a manual roll supply unit of a trowel applied to the present invention; FIG.

FIG. 15 is a block diagram of an automatic supply unit for a trowel used in the present invention. FIG.

16 is an enlarged view of the main part of Fig.

17 is a diagram illustrating an example of operation of an automatic feeding device for a tentacle jar applied to the present invention.

Fig. 18 is a photograph of the canopy of the present invention. Fig.

Fig. 19 is a photograph of the present invention after construction. Fig.

20 is a photograph of the outside of the crown of the present invention.

Fig. 21 is a photograph showing a fire in the cradle of the present invention. Fig.

22 is a view showing an example in which the assembled canopy of the present invention is installed in a building;

Fig. 23 is an exemplary view showing the assembled hangar of the present invention installed on the floor; Fig.

24 is a view showing an example in which the assembled canopy of the present invention is installed on a wall surface.

Fig. 25 is an exemplary view in which the assembled canopy of the present invention is installed on a ceiling surface; Fig.

Fig. 26 is an example of a product in which an uneven surface is formed outside the square pipe of the present invention,

First, the square pipe combined type canopy block of the present invention will be described in more detail as follows.

The rectangular pipe joint type canopy block according to the present invention may be manufactured by inserting a square pipe into the center of the inside of the canopy block and protruding a square pipe to the outside of the canopy block as shown in Figure 1, But it may be formed in a form completely inserted into the inside of the trough block as shown in the figure.

In the present invention, the square pipe-combined type cane blocks are connected to each other by an assembling method so that the cane blocks are brought into contact with each other. When the cane pipe is manufactured by inserting the square pipe into the cane block as in the present invention, It is possible to provide the advantage of lowering.

In other words, if a circular pipe is inserted into a canopy block, the canopy block must be thickened as a whole, and at the same time, the distance from the circular pipe to the bottom surface is not uniform and the difference is that the generated heat rises up to the upper floor of the canopy. There is a problem that it takes a lot.

However, in the present invention, when a pipe having the same cross-sectional area is inserted into a trough block, the trough is formed in a rectangular shape, so that the trough block can be manufactured in a very thin form, Therefore, it takes less time for the heat generated through the inner space portion of the square pipe to reach the upper floor of the hearth.

That is, since the present invention is a concept of manufacturing a pipe in a rectangular shape and inserting the pipe into a trough block, when the trough is manufactured to have the same cross-sectional area as that of the circular pipe, the trough block can be manufactured very thinly, The transferred heat can quickly move to the bottom surface of the gangway block, so that the gangue block can be heated very quickly.

As shown in FIGS. 6 and 7, the square pipes are continuously connected to each other to allow heat transfer at a high speed. When the canopy block is coupled to the outside of the square pipe, the canopy-inserted canopy of the present invention is completed.

That is, according to the present invention, after a plurality of pavement blocks with square pipes are produced, the pavement blocks may be assembled while assembling at the construction site.

The square pipe inserted into the canopy block is slightly protruded from one side of the canopy block to be assembled while being inserted into another canopy block. The concept that the square pipes are coupled to each other is easier to assemble, It is possible to provide the advantage that it is not.

Hereinafter, the principal components of the present invention will be described.

The loess can recognize that the birthplace of the four major civilizations of mankind was under the necessary conditions of mankind, as is also known as the loess area. It is conjectured that the role of loess in the ecosystem is large. In cash (nowadays), it is putting yellow soil into the ocean red tide phenomenon to block the tide of red tide phenomenon. In the past, the loess of the Korean pottery cooktop was described as a female oriental herb, called paralysis, paralysis, diarrhea, dysentery, and the use of herbs for medical purposes in the end of the boar. Also, wild ginseng and pine mushroom do not grow unless they are in the soil of yellow soil. Our ancestors have appropriately used this loess of loess.

Hwangtoe absorbs moisture when humidity is high, and when it is dry, it emits moisture and automatically adjusts humidity around the user. It absorbs food odor, tobacco smell and other harmful smell promptly, , Fungi and various fungi harmful to the human body, and has a function of absorbing and neutralizing the strong alkali component which is harmful to human body.

In addition, loess is a beneficial microorganism living in the human body, living environment, while cleansing, while promoting the blood circulation of the body, promote metabolism, activate the cell function and promote the growth of the far-infrared radiation that acts It is known that there is an effect.

The classification of the crystal structure and shape of the loess that is applied to the present invention is close to kaolin minerals. Kaolin minerals are representative of clay minerals and are a major component of loess, contained in the loess, and the main kaolin minerals are Kaolin called kaolin. In Korea, kaolin is almost all halloysite and most of it is tubular crystals. Hwangto is the topsoil of kaolinite layer and contains Fe ₂ O ₃ as much as 7 ~ 15%. Its color is reddish brown and low in refractoriness, so it is low grade kaolin which is not used in refractory and ceramics industry.

The basic composition of Halloysite is similar to kaolinite but it contains excess water and is made of Al ₂ O ₃ · 2SiO ₂ · 4H ₂ O and has low crystallinity. All of the kaolin minerals have a layered silicate structure. In other words, the hexagonal mesh of the [SiO ₄ ] ^-4 tetrahedron connects the apexes of the hexagonal mesh to the vertices of the hexagonal mesh, and the other one of the vertices has the Al ² O 3 or OH ^- < / RTI > with octahedral layer for 6 times. In the present invention, loess is a powder obtained by drying mined ore at Hadong Okjong region at 250 ° C and crushing the powder. Halloysite is the main mineral, α-Quartz is present in the secondary phase, Fe ₂ O ₃ is 7% Or more and an average particle diameter of 10 to 30 mu m.

On the other hand, cement is generally used as an inorganic binding hardener for civil engineering and construction purposes. It refers to a substance that bonds materials and materials more widely. The main components of cement are lime, silica, alumina, iron oxide, etc., (SO4-) in gypsum (CaSO4.2H2O), and it is relatively toxic compared to cement in this study because it has a harmful effect by sulfate group (SO4-) in gypsum The lower back cement was used.

White cement is a cement made of white clay and limestone with low iron content as raw material and heavy oil as fuel. It is used to remove iron of raw materials to produce cement, Fuel is used. Crushing is made of white stone by removing the causative material of cement such as hard stone or magnet instead of steel ball. It is mainly used for external mortar. In this case, instead of ordinary cement, loam and white cement It can be confirmed that the combination can increase the binding force of the loess.

The foaming agent of the present invention will be described as follows.

In the present invention, the above-mentioned aluminum hydroxide and aluminum sulfate are mixed with the fatty acid alcohol to accelerate the reaction with the alumina ginseng liquor to exhibit the rigidity at the initial stage of the hydration reaction. This is intended to quickly obtain a predetermined strength in the initial stage of manufacture of the cane to obtain the torsion rigidity and to minimize the defoaming due to the disappearance of the bubble. The above components are also intended to contribute to the prevention of the occurrence of cracks, ultimately by reducing the drying shrinkage of the trowel by producing ettringite, which is an expansive mineral.

In addition, the present invention uses polyvinyl alcohol and vegetable oil to stabilize the generation of bubbles. The more uniform the bubbles are and the more uniform the bubbles are, the more lightweight the bubbles and the heat insulation can be improved. The present invention relates to a gauze field, and more particularly to the generation of bubbles and stabilization thereof. Therefore, it is possible to prevent air bubbles generated by the use of the above components from being bombarded by metal ions, To maintain the reaction. To stabilize the bubbles, use vegetable oil rather than animal oil. The vegetable oil is preferably purified. As the vegetable oil, coconut oil is most preferable.

Further, the present invention uses 0.5 to 5% by weight of formaldehyde for the entire mixture. The use of the formaldehyde described above is intended to keep the performance of the foam stabilizer unchanged even when stored for a long period of time. In other words, among the above-mentioned foaming agents, fatty acid alcohols and vegetable oils have a bad odor and deteriorated quality due to corruption after a certain period of time (for example, about 3 months) .

In general, when the amount falls short of or exceeds the above range, the performance as an antiseptic agent is weak or excessive.

In addition, the present invention may further comprise 0.5 to 5% by weight of a glycol component as a dihydric alcohol with respect to the whole mixture. In the present invention, the use of the above-mentioned glycol component is intended to further improve stabilization of bubbles. The characteristics of the foaming agent are that fine bubbles are generated by high-pressure air. If metal ions such as aluminum sulfate are contained in the mixing process of the gauzae, the bubbles are destroyed by the metal ions, As a result, the foaming power is weakened, which results in deterioration of the performance of the canopy. Therefore, by using the above-mentioned glycol component, the reactivity of the metal ion is weakened to stabilize the generated bubbles. As the glycol component, ethylene glycol and polyethylene glycol can be exemplified, and polyethylene glycol is more preferable.

The characteristics of the jade, which is one of the constituent elements of the present invention, will be briefly described.

Jade is dense, hard, transparent, beautifully shining, polished and polished. Mineralogically, jadeite is a kind of amphibole, and jadeite is a type of alkali pyroxene.

Nephrite are many milky white, green, yellow, red, and jadeite are green and white. There are various names depending on the color, but Baekok and Jade are representative. Not only has it been regarded as a precious stone in the Orient since ancient times, it has been used as an ornamental stone or jade gemstone as well as has a high far infrared emissivity which is beneficial to the human body and is utilized in various medical assistive devices and apparatuses.

In addition, since jade contains calcium and magnesium, which are necessary minerals for human body, since magnesium is an essential constituent of human cells, the germanium wave emitted from the jade penetrates evenly into the human body, And accelerates the alkalinization of blood. In addition, it is a substance that increases the natural healing power by naturally generating interferon corresponding to viral diseases, which are all causative factors, in the body.

The far infrared ray emitted from the jade means an infrared ray having a wavelength of 25 占 퐉 or more, that is, a long wavelength among infrared rays. Infrared rays, including far infrared rays, are invisible, well absorbed by substances, and characterized by strong resonance and resonance with organic molecule molecules.

In addition, light generally has a good reflection when its wavelength is short, and it has a property of being absorbed when it reaches a object if it has a long wavelength, so it has a strong penetrating power so that a human body can feel warm when it is subjected to this infrared ray. This heat helps to eliminate germs that cause various diseases, and it enlarges the capillaries and helps blood circulation and cell tissue production. In addition, when it comes into contact with moisture and protein molecules that make up cells, it shakes cells 2,000 times a minute to activate cellular tissues and prevent aging, promote metabolism, and prevent chronic diseases such as chronic fatigue.

In addition, it has the effect of promoting perspiration, relieving pain, removing heavy metals, sleeping, deodorizing, sterilization, prevention of fungus growth, dehumidification, air purification, It is used in various fields such as jjimjilbang.

The canopy house of the present invention basically comprises a heating device 1, a heating pipe 2 and a canopy 3, and the canopy 3 is connected to a heating pipe 2, The heat is configured to radiate through the heating pipe (2) and the hearth (3).

Hereinafter, a manufacturing apparatus for manufacturing the canopy of the present invention will be described in detail.

A loess-providing hopper 11 for storing loess for providing loess;

A cement-providing hopper (12) storing cement to provide cement;

A foaming agent hopper 13 for storing foaming agent to provide foaming agent;

A hopper 14 for providing a polymer in which a polymer is stored to provide a polymer;

A jaw-providing hopper 16 for storing jade to provide jade;

A hopper 15 for storing water to provide water;

Receiving loess from the loess-providing hopper 11, receiving cement from the cement-providing hopper 12, receiving foaming agent from the hopper-providing hopper 13, and discharging the polymer from the hopper 14 for polymer- A mixer 20 for receiving jade from the jade hopper 16, receiving water from the water feeder 15, mixing them, and outputting the loess dough;

A far infrared ray sensor 30 installed at an upper end of the mixer for checking whether a desired far infrared ray is emitted by checking a far infrared ray inside the mixer;

A block molding machine (40) for receiving the yellow loam dough outputted from the mixer and compressing and molding the dough according to the shape of the mold;

A canopy block formwork (41) installed inside the block molding machine and having a shape of a rectangular box shape, and fixing a square pipe to an inner center thereof to create a canopy block in which a square pipe is built;

A pallet (50) located at a lower portion of the block molding machine and for moving a canopy block form falling from the block molding machine through a conveyor;

A controller (70) for analyzing the measurement result of the far-infrared ray sensor and judging whether a far-infrared ray below the reference level is detected;

And an error signal output unit 100 for outputting an alarm signal under the control of the control unit.

The jaw storing hoppers 16 and 60 according to the present invention will be described in more detail. The jaw storing hoppers 16 and 60 are vertically installed in the first and second jaw storing basins 61 and 61, And the jaws 16a are supplied by using the jaw reservoir 61. The jaws 16a are dropped to the mixer through the second jaw reservoir 62. [ In addition, the present invention can further adjust the amount of the jade supplied by adjusting the supply adjusting screw 63 for adjusting the jade supply. The jade supply adjusting screw 63 is provided between the first jug storing tank 61 and the second jug storing tank 62, And the jade supply adjusting screw 63 may be rotated clockwise or counterclockwise to limit the amount of jade input. For convenience of explanation, the hopper is described as 16 or 60, and it is the same.

That is, the jaws 16a contained in the first jug container are introduced into the second jug container 62 through the jaw supply adjusting screw 63, The jaw supply adjusting screw 63 can be turned by hand to control the insertion of the jade.

At this time, when the jaw supply adjusting screw 63 is turned clockwise, the jaw supply adjusting screw is advanced and the jaw supply adjusting region is closed to stop the jaw supply. When the jaw supply adjusting screw 63 is turned counterclockwise As the jaw supply adjustment screw is retracted, the jaw supply regulating area is opened, thereby promoting the supply of jade.

Accordingly, when the present invention is used, the jade supply adjusting screw 63 is rotated clockwise or counterclockwise in a state in which a large amount of jade 16a is stored in the first jade reservoir 61, So that the amount of jets to be supplied to the mixer can be easily adjusted.

Further, the present invention can further adjust the amount of the jaws 16a to be provided by providing additional automatic jaw adjusting units 60b, 60c and 60d for adjusting the jaw supply. The first jaw reservoir 61 and the second jaw The automatic supply adjusting units 60b, 60c and 60d are further provided between the reservoir 62 and the supply adjusting screw motors 64 are further provided at the rear ends of the automatic jaw adjusting units 60b, 60c and 60d The jaw supply adjusting screw motor 64 can be rotated clockwise or counterclockwise to limit the amount of jaw input.

That is, the jaws 16a contained in the first jugstore 61 are drawn into the second jugstore 62 through the jaw supply controllers 60b, 60c and 60d, And the jaws introduced into the mixer are supplied into the mixer. At this time, the supply of jade can be controlled by rotating the jaw supply adjusting screw motor 64 installed in the jaw automatic supply adjusting parts 60b, 60c and 60d.

A screw 60c formed at one end of the opening and closing hole 60a for opening and closing the opening and closing hole 60a and a screw 60c formed at one end of the opening and closing hole 60a for opening and closing the opening and closing hole 60a, A driving motor 64 which is installed on the other side of the screw 60c for rotating the screw 60c and a screw 60c which is rotated in accordance with the rotation of the driving motor 64 forward and backward, And a boss 19 fitted in the screw 60c so as to be able to open and close the opening and closing hole 60a of the opening 62a.

In the operation of the present invention, when the driving motor 64 is driven, the screw 60c connected to the motor 64 is rotated in the reverse direction by driving the motor 64. The screw 60c reversely rotated in accordance with the driving of the motor 64 is rotated backward by the boss 60d fitted in the screw 60c and the screw 60c is moved backward by the rotation of the screw 60c, (60b) is retracted from the opening / closing hole (60a) to allow the jaw to flow.

Even when the jaw movement is completed as much as desired and the opening and closing ball is to be closed, the screw 60c connected to the motor 64 by driving of the motor 64 when the driving motor 64 is driven It is conveyed regularly. The screw 60c which is rotated forward in accordance with the driving of the motor 64 is advanced while rotating in the boss 60d fitted to the screw 60c and the screw 60c is advanced by the screw 60c, The opening 60b is advanced from the opening / closing hole 60a, so that the opening / closing hole 60a is closed, whereby the movement of the jade is stopped.

Accordingly, when the present invention is used, the supply amount of the jade can be easily adjusted by rotating the drive motor 64 for automatic jade supply clockwise or counterclockwise in a state in which a large amount of jade is stored in the first jade storage box 61 It is possible to easily adjust the amount of jets supplied to the mixer.

Preferably, the first jade storing and passing second jade storage box is made of a transparent acrylic material so that it can easily recognize the jade moving state from the outside. This is because it is easy to see whether jade moves or stops correctly when controlling the flow of jade.

Also, the present invention extracts the content of jade in real time and outputs an alarm signal when the content of jade is below the reference value, so that the jade of necessary concentration is necessarily inserted.

The control unit 70 receives and analyzes the far-infrared data from the far-infrared sensor 30. The control unit 70 receives the far-infrared data from the far-infrared sensor 30, An error signal automatic output unit 100 for receiving a control signal from the control unit and displaying an error signal.

That is, the present invention checks the far-infrared ray from the far-infrared ray sensor 30 and transmits it to the controller 70. If the far-infrared ray value is below the reference value, the controller 70 outputs a continuous alarm signal through the error- Thereby inducing the user to check the degree of far-infrared radiation.

The far infrared ray sensor 30 according to the present invention is divided into a quantum type using a photovoltaic effect or a photoconductive effect, and a thermal type using a thermoelectric effect or a pyroelectric effect. In the present invention, the far infrared ray sensor 30 needs to be cooled A super-typical far-infrared sensor is used.

The super-conducting far infrared ray sensor 30 is a sensor that detects the infrared ray energy emitted from all objects by using the pyroelectric property of the super-charged material.

Here, the superconducting property is a characteristic in which the surface charge changes in accordance with the temperature change of the crystal structure of PZT (lead zirconate titanate) and the like.

Examples of the ultrasound type far infrared ray sensor 30 include PZT type, LiTaO ₃ type (lithium tantalate), PVF (polytetrafluoroethylene), and the like. Examples of the ultrasound type far infrared ray sensor 30 include silicone, polyethylene, quartz glass, ₂ , PbTaO _3, and the like.

The configuration of the error signal automatic output unit 100 of the present invention is as follows.

A relay switch 107, a first circuit connection switch sw1, and a second circuit connection switch SW2. The circuit power supply 101, the far infrared ray error output unit 102, the oscillation transformer 103, the relay operation switching unit 108, A communication terminal power switch sw2, and a power source holding switching section 118. [

The power supply unit 101 applies a power supply signal to the power supply control unit when the apparatus is operated.

The far infrared ray error output unit 102 switches the power supply circuit when the radiation value of the far infrared rays radiated from the yellow soil mixture is below a reference value.

When the power switch is turned on, the oscillation transformer 103 is supplied with electric power and outputs a boosted AC current.

The relay operation switching unit 108 is connected to the output terminal of the oscillation transformer 103 and is turned on by electrical supply.

The relay switch 107 is installed at an output terminal of the relay operation switching unit 108 and generates a magnetic force.

The first circuit connection switch (sw1) performs a function of energizing the circuit while the iron wire is pulled by the relay switch (107).

The error signal output power switch sw2 serves to induce an error signal to be displayed by supplying power to the error signal output control unit 140 while the iron wire is pulled by the relay switch 107. [

The power supply switching unit 118 is connected to the first circuit connection switch and the base stage, the emitter stage and the collector stage are connected to the oscillation transformer 103 and the relay operation switching unit 108, The wire is pulled by the operation of the switch 108 to form a closed circuit, and the switching is turned on to stop the operation of the relay switch 107 thereafter. At this time, if the first circuit connecting switch sw1 and the error signal output power switch sw2 are forcibly turned off, the closed circuit is broken while the closed circuit is broken and the relay operating switch 108 is turned on and the relay switch is turned on The first circuit connecting switch sw1 and the error signal output power switch sw2 are turned on to induce the error signal to be output continuously.

Hereinafter, the operation of the error signal automatic output unit 100 will be described.

First, when the far-infrared ray error output unit 102 is turned on, a direct-current power source is connected to supply power to the oscillation transformer, and a high voltage is applied to the secondary side of the oscillation transformer.

The power source induced on the secondary side becomes a DC power source of a half wave through a rectifying diode, and this half wave DC power source becomes a more stable DC power source due to the charging and discharging action of the condenser.

This DC power source is applied to the anode terminal of the thyristor through the coil of the relay switch 107, while the DC power source charges the capacitor through the resistor. The raised voltage triggers the switching unit 108 for relay operation while passing through the diode, so that the node node and the cathode node are switched so that the operation of the relay switch is performed, The circuit connecting switch sw1 and the error signal output power switch sw2 are turned on to apply power to the error signal output control unit 140 and an error signal is displayed.

When the first circuit connection switch sw1 is activated, a power source for directing the closed circuit to the emitter end and the collector end of the power source holding switching unit 118 while the base end of the power source holding switching unit 118 is activated, Off.

That is, the voltage between the resistor 109 and the capacitor 110 is passed through the diode 120 to flow between the emitter terminal and the collector terminal of the power supply switching unit 118, and the resistance between the resistor by the bypass and the capacitor When the voltage between the resistor and the capacitor is lowered, the trigger signal to the switching unit for relay operation 108 is stopped, so that the node unit and the tail unit are turned off and the current flows to the relay switch 107 So that the power supply is continuously stopped for switching.

On the other hand, if the operator turns off the first circuit connecting switch and the error signal output power switch during the error signal output, there is no current flow in the closed circuit, and accordingly, the bias voltage flowing between the emitter end and the base end of the power- The power supply switching unit 118 is turned off.

The power supply switching part 118 is turned off and the bypass voltage between the resistor and the capacitor through the diode 120 disappears and the voltage is charged in the capacitor 110. [

This charged voltage causes a break-over phenomenon of the die 111 and the trigger signal is output from the die to the switching section 108 for operating the auxiliary switch so as to move the iron piece and maintain the closed circuit while simultaneously controlling the error signal controller 140 So that the error signal display unit 150 can be continuously operated.

That is, according to the present invention, if the error factor is not cured, the warning sound is continuously output to guide the user to operate the canopy manufacturing device after healing the error factor.

In addition, the present invention can be provided with a prefabricated pavilion on the bottom surface, the wall surface, and the front surface of the building, and FIGS. 22 to 25 illustrate a prefabricated pavilion in various forms.

In particular, as shown in FIG. 26, a square type pipe can be constructed by inserting a square pipe having an uneven surface on the outer side thereof in the center of the structure, and a square pipe having a concave- The die is provided with a rectangular pipe having an open upper part and a rectangular pipe with an uneven surface in the horizontal direction.

When the mortar structure is hardened and then the form is removed, the rectangular parallelepiped structure having the square pipe inserted therein is introduced to the outside. At this time, since the square pipe has an uneven surface on the outer side, The lifetime of the structure is significantly extended during the installation process.

11: Hopper for loess
12: Hopper for cement supply
13: hopper for foaming agent
14: hopper for polymer supply
16: Hopper for jade
15: Hopper for water supply
20: Mixer
30: far infrared ray sensor
40: Block molding machine
50: Palette
70:
100: Error signal automatic output section

Claims (6)

A loess-providing hopper 11 for storing loess for providing loess;
A cement-providing hopper (12) storing cement to provide cement;
A foaming agent hopper 13 for storing foaming agent to provide foaming agent;
A hopper 14 for providing a polymer in which a polymer is stored to provide a polymer;
A jaw-providing hopper 16 for storing jade to provide jade;
A hopper 15 for storing water to provide water;
Receiving loess from the loess-providing hopper 11, receiving cement from the cement-providing hopper 12, receiving foaming agent from the hopper-providing hopper 13, and discharging the polymer from the hopper 14 for polymer- A mixer 20 for receiving jade from the jade hopper 16, receiving water from the water feeder 15, mixing them, and outputting the loess dough;
A block molding machine (40) for receiving the yellow loam dough outputted from the mixer and compressing and molding the dough according to the shape of the mold;
And a pavement block formwork (41) which is installed inside the block molding machine and has a shape of a rectangular box form, and a square pipe is fixed to an inner center of the square formwork to create a pavement block in which a square pipe is built, The outer side of the square pipe inserted in the hollow pipe forms a plurality of concavo-convex concave and convex surfaces to reinforce the bonding force with the yellow loam dough;
A pallet (50) located at a lower portion of the block molding machine and for moving a canopy block form falling from the block molding machine through a conveyor;
A controller (70) for analyzing the measurement result of the far-infrared ray sensor and judging whether a far-infrared ray below the reference level is detected;
And an error signal automatic output unit (100) for outputting an alarm signal under the control of the control unit;

The error signal automatic output unit 100,
A power supply unit 101 to which a power supply signal is applied by the power supply control unit when the manufacturing apparatus is operated;
A far infrared ray error output unit 102 for switching the power supply circuit when the radiation value of the far infrared ray radiated from the yellow soil mixture is below a reference value;
An oscillation transformer 103 for outputting a boosted alternating current by supplying electricity when the far-infrared ray error output unit is turned on and the power switch is turned on;
A relay operation switching unit 108 connected to an output terminal of the oscillation transformer 103 and turned on by an electrical supply;
A relay switch 107 installed at an output terminal of the switching unit for relay operation 108 and generating a magnetic force;
A first circuit connection switch (sw1) for energizing the circuit while the iron wire is pulled by the relay switch (107);
An error signal output power switch sw2 for supplying power to the error signal output control unit 140 and displaying an error signal when the relay wire 107 is pulled by the relay switch 107;
The first circuit connection switch and the base end are connected to each other and the emitter end and the collector end are connected to the oscillation transformer 103 and the relay operation switching unit 108. The operation of the relay operation switching unit 108 pulls the iron piece If the first circuit connecting switch sw1 and the error signal output power switch sw2 are turned off while stopping the operation of the relay switch 107 after the switch is turned on while forming the closed circuit while the closed circuit is formed, And the relay switch 108 is turned on to turn on the first circuit connecting switch sw1 and the error signal output power switch sw2 so that an error signal is continuously output. And a switching unit (118) for holding a square pipe. The method according to claim 1,
The jaw-providing hopper (16)
A first jug reservoir (61) installed vertically to the side of the mixer for supplying jade through the internal space, and a second jug reservoir installed at a lower portion of the first jug reservoir, A second jaw reservoir 62 through which the jaw supplied to the mixer is supplied so as to supply the jaw to the mixer and a jaw supplying jaw provided between the first jaw reservoir 61 and the second jaw reservoir 62, And an adjusting screw (63). ≪ Desc / Clms Page number 19 > The method according to claim 1,
The jaw-providing hopper (16)
A first upper reservoir (61) installed on a side surface of the mixer and vertically installed to supply jade to the jade reservoir through an inner space of the mixer, and a second reservoir An opening / closing hole (60a) formed at one end of the second jug container (60), and an opening / closing part (60a) for opening / closing the opening / closing hole (60a) A driving motor 64 installed at the other side of the screw 60c for rotating the screw 60c and rotating forward and backward; And a boss (60d) fitted into the screw so as to open and close the opening / closing hole (60a) by switching the screw to be rotated so as to move forward and backward. The method according to claim 2 or 3,
The apparatus of claim 1, wherein the first and second jaws (61, 62) are made of transparent acrylic material. The method according to claim 1,
Wherein the canopy block is installed on any one of a bottom surface, a wall surface, and a ceiling surface of a building, or is installed on all sides of the building. A prefabricated gauze which is manufactured through the manufacturing apparatus of claim 1.

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