KR102404365B1 - Device for bus duct molding mortar - Google Patents

Abstract

Disclosed is an apparatus for manufacturing mortar used when molding a bus duct in a bus duct for molding. The mortar manufacturing apparatus of the present invention includes a main body container, a lid covering the main body container, a motor installed on the main body container lid, a vacuum pump connected to the outside of the main body container through a nozzle, and a rotation shaft of the motor. It consists of a stirring means rotating in the body, and three or more support holes for guiding and accommodating the mortar mixing container are formed inside the body container.

Description

Mortar manufacturing apparatus for bus duct molding {DEVICE FOR BUS DUCT MOLDING MORTAR}

The present invention relates to an apparatus for manufacturing mortar, and more particularly, to an apparatus for manufacturing mortar used when molding a bus duct in a bus duct for molding.

Electric energy is an indispensable energy in all fields including daily life.

It is a general method to use the electric energy as described above by using a cable as a transmission medium from the power plant to the place of use.

However, compared to the past, in modern times, buildings, such as factories, buildings, apartments, officetels, hotels, research complexes, large marts, skyscrapers, etc. Accordingly, the server room used where the high-capacity electric energy is required requires a high voltage, etc., and in order to manage and use it, it has no choice but to reach a limit in transmitting electricity using a conventional cable.

Therefore, it became necessary to replace the cable, which is each individual electrical transmission medium as described above, and the bus duct is made by these needs.

The bus ducts as described above have something in common in that they have conductors and insulators, but while the cables use vinyl or rubber to protect the conductors and to insulate the electricity passing through the conductors to the outside, the bus ducts have bus bars so this booth Since it is a method of wiring through a bar, the bus duct transmits a large amount of current through the conductor, so it is difficult to directly protect it with an insulator, so there is a difference in the point of embedding it in the duct.

As described above, since a high-capacity current passes through the bus bar provided inside the bus duct, the bus bar is provided inside the duct of a predetermined size while being isolated from the outside. It is manufactured and installed at the site according to the facility and distribution design to be installed.

However, in order to strengthen electrical safety standards, to prepare for the external environment, such as climate, and to secure stability in harsh environments due to ships or underground burial, it is necessary to have essential elements such as insulation between busbars in bus ducts.

The molded bus duct was developed for the above needs.

The molded bus duct secures insulation by molding an insulating material between internal bus bars.

The mortar used in the above molded bus duct (in the present invention, the material used in the molded bus duct is referred to as "mortar") has used an insulating resin.

As the above resin, an epoxy resin has been used, and a mixture of filler and silica sand has been used. In general, there is a method of molding the inside of a bus duct with a built-in bus bar by stirring the resin. Since there is still air, it becomes a condition that electricity through the busbar can pass through the air to the outside of the busbar. ham is inherent

Another method of molding the inside of the bus duct is a method of defoaming when mixing the resin, filler, silica sand, etc. In this method, a method for giving a vacuum to the mixture to remove air inside is used. However, during the desaturation process, the resin containing the curing agent is included in the mixture inside, so the residue remaining after defoaming is hardened and must be cleaned within a short time. There have been problems such as having to invest a lot of time.

As the prior art regarding the molded bus duct as described above, first, 2017.12.28. There is published Patent Publication No. 10-2017-0142898, in which it is possible to secure the convenience of transportation and installation by reducing the overall volume and weight, and to ensure durability by preventing the molding part from being exposed to the external environment and to ensure durability and elapse of a long time Molded bus ducts that can maintain waterproof, dust-proof and anti-corrosive performance even afterward are being released.

In addition, it was applied to the applicant of the published patent before the published patent, and 2020.06.12. Registered Patent No. 2124683, which is also registered as a ruler, discloses a molded bus duct similar to the contents of the above-mentioned published patent.

However, in the prior art, it does not describe the apparatus for making mortar for bus duct molding as in the present invention, but relates to the molded bus duct itself, and in these documents, fillers and epoxy as in the prior art are used as molding mortar. As mentioned, the mortar for molding mentioned in the prior art has completely different physical properties from the mortar made with the apparatus in the present invention, and cannot be used at sub-zero temperatures due to the curing problem of the mold, and the resin and The prior art is an invention different from the present invention in terms of the purpose to be pursued, the idea of the invention, etc.

As described above, although it is the same as the conventional power cable used in general, it has high electrical stability and has the advantage of supplying a large amount of power. As the use of safe and energy-efficient bus ducts increases due to the increased demand for energy of various capacities, bus ducts that can satisfy safety, ease of management, aesthetics, durability, etc. The need for development of mortar for molding used and the need for development of a method for making the mortar or an apparatus thereof have also emerged.

Although the field is completely different from the present invention, looking at the manufacturing method of mortar, etc., Patent Registration No. 0695931 discloses a method for producing a cement mortar curing agent and a cement secondary product curing agent emitting far infrared rays, and the cement admixture solution is transparent. It is an invention fundamentally different from the present invention because it consists of a container, irradiating visible light to the admixture solution, and irradiating infrared rays to the admixture solution.

In addition, Patent Publication No. 10-2014-0000363 discloses a mortar manufacturing apparatus for sealing a coke oven.

The above publication includes a mortar tank in which mortar is stored, a water tank in which water is stored, a stirred tank in which the mortar and water supplied from the mortar tank and the water tank are mixed and stirred, and a supply unit supplying the stirred mortar mixture. In this case, it is an invention that is completely different from the problem to be solved by the present invention and the idea of the invention for achieving it.

The present invention is a device for providing mortar for molding, which is completely different from the prior art and is essential in the field of booth ducts, and can smoothly supply mortar because there is no need to wash the main container, and there are no bubbles and voids inside the booth By providing a device for manufacturing mortar for bus duct molding that can be completely insulated between bus bars in the duct, sufficient electrical safety is ensured, and thus the life of the bus duct can be guaranteed, and can also be manufactured in the field. Solve the problem of the invention.

The present invention in order to solve the problems of the present invention as described above;

A body container for making and accommodating mortar, a motor installed on the upper part of the body container, a vacuum pump provided through a nozzle on one side of the body container, a mortar mixing container accommodated in the body container, and rotating inside the mortar mixing container It provides an apparatus for manufacturing mortar for bus duct molding, including a stirring means connected to the rotation shaft of the motor.

In the above, it is preferable that three or more supporters are formed in the main body container so that the mortar mixing container can be accommodated.

In addition, the motor is installed on the upper lid of the main body container, the motor rotating shaft is protected by a rotating shaft protector, and a vacuum check gauge, a pressure release valve, and a nozzle connected to the vacuum pump are connected on the upper lid of the main body container. It is preferable that a vacuum water valve is installed.

In addition, it is preferable that the stirring shaft of the stirring means is coupled to the rotation shaft of the motor, and the other side is provided with a stirring blade.

According to the present invention, in the device of the present invention, a mortar mixing container separately accommodated inside the main body container is accommodated, and the mortar component in the mixing container is stirred using a stirring means using an upper motor while mixing and stirring using a separately provided vacuum pump. Since all air can be exhausted to the outside, there are no air bubbles or voids inside the manufactured mortar, so it is suitable for use in bus duct molding that requires insulation and electrical safety, and effective mortar can be easily manufactured. Not only is it convenient to use in the main body, but it is also possible to dramatically reduce the cost and time required for cleaning the conventional mortar manufacturing body container by using the mortar mixing container in the main body container, so that it can be effectively applied to the production of mortar for bus duct molding.

1 is an overall schematic perspective view of an apparatus of the present invention;
Figure 2 is a perspective view of the main body container as a component of the present invention.
3 is a perspective view of a stirring means as a component of the present invention.
Figure 4 is a perspective view of a combination of the stirring means and the upper lid as a component of the present invention.
Figure 5 is an exploded perspective view of the bonding process of the present invention.
Figure 6a is a photograph of an ingot using mortar according to a test example of the apparatus of the present invention.
6b is a photograph of an ingot using mortar according to a comparative example.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. The following description is provided to help the understanding and practice of the present invention, but is not intended to limit the present invention thereto. It will be understood by those skilled in the art that various modifications, changes or modifications can be made within the spirit of the invention as set forth in the claims below.

First, Figure 1 is an overall perspective view of the present invention, the mortar manufacturing apparatus 100 for bus duct molding of the present invention (hereinafter referred to as "manufacturing apparatus") is a body container 10 and a lid ( 20) Vacuum connected to one of the three valves (V1, V2, V3) installed on the upper part and installed on the motor 30 to which the connecting shaft 31 ′ is connected, and the lid 20 of the body container 10 . It consists of a pump (40).

The manufacturing apparatus 100 of the present invention configured as described above will be described in more detail for each component thereof.

2 is a view showing the inside of the body container 10 in FIG. 1 , wherein the body container 10 has a stepped portion 15 protruding outward from the upper portion thereof. A plurality of fastening holes 11 to be coupled and fastened to the lid 20 are provided, and the fastening holes 11 are formed in the same number as the fastening holes of the lid 20, and the lid 20 through the fastening holes 11 ) is coupled to the container body 10 with a fastening mechanism 21, for example, a screw.

In addition, the support spheres 12 and 12' are formed inside the body container 10, and the support spheres 12 and 12' are accommodated in the mortar mixing container 60 (FIG. 5) in the body container 10. Three or more are formed by being guided in the body container 10 when it is made and to be firmly fixed.
The mortar mixing container 60 in the above is disposable, and the mortar mixing container 60 in the following is disposable.

The above supports 12 and 12' are independent of their shape, and are directed inward from the inside in the main body container 10 and are not less than the outer circumference of the mixing container 60 accommodated therein, so that the mixing container 60 is the main body. It only needs to be accommodated in the container 10 .

In addition, an O-ring groove 25 is formed inside the stepped portion 15 of the body container 10 to secure airtightness in the body container 10 when the lid 20 is coupled with the body container 10 . have.

Unexplained reference numerals 13 and 14 in FIG. 2 are handles and supports of the body container 10 .

3 is a stirring means 50 used in the manufacturing apparatus 100 in the present invention, wherein the stirring means 50 is provided with a connector 53 having a fastening hole 51 formed on one side of the stirring shaft 52 . and a stirring blade 54 for stirring and mixing mortar is provided on the other side.

4 is a view showing a state in which the stirring means 50 used in the present invention is connected to the motor shaft 31 of the motor 30 (refer to FIG. 1 ) installed on the upper part through the lid 20 .

In FIG. 4 , to the outside of the lid 20 covered on the upper part of the body container 10 of the present invention, the fastening hole 11 ′ is the same as the fastening hole 11 formed in the stepped portion 15 of the body container 10 . ) is formed so that the lid 20 is fastened and fixed to the main body container 10 through a screw, etc., which is the fastening mechanism 21 when in use. By inserting the O-ring 26 into the ring groove 25 , airtightness in the body container 10 is secured when the body container 10 and the lid 20 are combined.

In addition, a through hole passing through at least three parts of the lid 20 is formed, and valves V1, V2, V3 are installed in the through hole, and the vacuum in the body container 10 is released, the vacuum state in the body container 10 It is used for installing the confirmation gauge (G) and connecting the hose (41) with the vacuum pump (40: see FIG. 1).

In addition, a through hole is formed in the central portion of the lid 20, the connecting shaft 31 ′ is connected through the central portion through hole, and the lower portion of the connecting shaft 31 ′ has the same shape as the connector 53 . A connector 53' having the same through-hole is formed.

The connecting shaft 31 ′ is fastened to the connecting port 53 ′ and the connecting port 53 of the stirring means 50 by a method such as screwing through the formed through hole.

Accordingly, when the connecting shaft 31 ′ rotates, the stirring shaft 52 of the stirring means 50 is naturally rotated.

The use of the connecting shaft 31 ′ to rotate the stirring means 50 in the above means that the mortar in the mixing mortar container 60 can bounce up according to the stirring and vacuum formation when the manufacturing apparatus 100 of the present invention is used. Therefore, even if everything is safely sealed, if the stirring means 50 is directly connected to the motor shaft 31, the life of the motor 30 may be affected due to the mortar splashing upward. use.

A support part 33 is formed in the upper part of the lid 20 so as to have a through hole in the center, and a bearing 32 is installed on the upper part of the support part 33, and the connecting shaft 31' is the support part. Through the through hole of (33) is passed through the inside of the bearing housing (32).

The support part 33 of the central part of the lid 20 serves not only to catch the vibration of the bearing housing 32 due to the rotational force transmitted from the motor 30, but also to fix the bearing housing 32 at the top thereof. also do

In addition, a bearing housing protector 34 is installed on the outer surface of the bearing housing 32 to further prevent vibration that may occur due to the rotation of the connecting shaft 31 ′.

A motor holder 33 (FIG. 1) is installed on the bearing housing 32, and the motor 30 is fixedly installed. Since the connection between the motor shaft 31 of the motor 30 and the connecting shaft 31 ′ inside the bearing housing can be performed in a conventional manner, a description of the specific connection method and the role of the bearing housing 32, etc. Since these are general techniques, their description will be omitted here.

5 is a view showing the combination for use of the manufacturing apparatus 100 of the present invention, and mixing the materials to be made into mortar by mixing through the support 12 of the body container 10 to the mortar mixing container 60 4, the stirring means 50 is connected to the upper motor shaft 31 through the connecting shaft 31 ′ in the bearing housing 32, and the lid 20 is connected to the fastening hole of the body container 10 ( 11) and the fastening hole of the lid to fix it.

In this case, the O-ring 26 is inserted between the body container 10 and the lid 20 to more reliably seal the airtightness in the body container 10 .

The manufacturing apparatus 100 of FIG. 1 is assembled as described above.

[Test Example]

In order to test the manufacturing apparatus of the present invention, it was carried out as follows.

[Preparation of raw materials]

For the test of the manufacturing apparatus 100 of the present invention, it was prepared as follows. (% by weight)

[Epoxy resin (A:A1+A2)]

Main part (A1): As the main epoxy resin, 21% of Kukdo Chemical's resin and 15% of SAC's powder-type flame retardant as a flame retardant were prepared.

Curing agent part (A2): 11% of Kukdo Chemical's resin as an epoxy curing agent and 9% of aluminum hydroxide as a flame retardant were prepared,

[Zeolite (B)]

44% of the zeolite manufactured by Dongshin was prepared,

[Test of manufacturing equipment]

About 20 kg of the epoxy resin (A) and zeolite (B) prepared as described above are put in the mortar mixing container 60, put in the body container 10 of the manufacturing apparatus 100, and assembled as shown in FIG. 1, and then the motor 30 speed was first stirred for about 5 minutes at 60 rpm.

After the first stirring, the rotation speed of the motor 30 is set to 50 rpm, and the vacuum pressure of the vacuum pump 40 is formed to -650 mmHg while the second stirring is performed, and stirring and vacuum formation are performed for about 5 minutes, and then the vacuum release valve (V1) ) to release the vacuum.

[Comparative example]

The epoxy resin (A) in the Example of the present invention was the same, and instead of the zeolite (B) in the Example of the present invention, silica sand commonly used in Comparative Example was added, and the same vacuum as in the manufacturing apparatus of the present invention Only normal stirring was performed without formation.

As described above, the mortars of Examples and Comparative Examples of the present invention were prepared and made into an ingot of the same type.

6A is an ingot using mortar manufactured by the manufacturing apparatus 100 of the present invention, and FIG. 6B is an ingot using mortar according to a comparative example.

Comparing FIGS. 6A and 6B, the one made with the manufacturing apparatus 100 of the present invention has a clean outer surface and no pores, and the comparative example by the conventional method (FIG. 6B) has a rough surface and pores. , it was determined that the mortar produced by the manufacturing apparatus 100 of the present invention was optimal for use in the molding of the bus duct.

[Test Example]

As described above, the dielectric breakdown strength measured using the mortar manufactured by the manufacturing apparatus 100 of the present invention and that of other companies (A, B) is shown in Table 1 below.

sample A B the present invention thickness breakdown voltage Insulation breakdown voltage thickness breakdown voltage Insulation breakdown voltage thickness breakdown voltage Insulation breakdown voltage mm kV kV/mm mm kV kV/mm mm kV kV/mm One 1.94 7.50 3.87 2.12 15.10 7.12 2.35 38.90 16.55 2 2.12 11.70 5.52 2.21 17.30 7.83 2.75 39.20 14.25 3 2.21 18.10 8.19 1.81 12.90 7.13 3.21 42.40 13.21 4 2.25 14.70 6.53 2.03 13.60 6.70 3.23 46.90 14.52 Average 2.13 13.00 6.03 2.04 14.73 7.19 2.89 41.85 14.63 Standard Deviation 0.12 3.90 1.57 0.15 1.69 0.41 0.36 3.22 1.21

The above test was performed by boosting the voltage to 500V/s, and the subject of the test is the result of testing from 10/11/2020 at LSIS Research Center in Anyang.

In the test, the dielectric breakdown voltage properties were tested by making the samples manufactured using the manufacturing apparatus of the present invention in the laboratory and the control samples of companies A and B under the same conditions. It shows that molding the device 100 with the manufactured mortar has excellent dielectric breakdown voltage properties and thus can be effectively used for molding a bus duct.

Accordingly, the manufacturing apparatus 100 of the present invention may be effectively used for manufacturing mortar for bus ducts.

10: body container. 11, 11′: fasteners.
12, 12': support. 20: lid.
21: fastener. 25: 0 ring groove.
30: motor. 31: motor shaft.
32: bearing housing. 33: motor holder.
34: bearing housing protector. 35: support.
40: vacuum pump. 41: hose.
50: stirring means. 51: fastener.
52: agitation shaft. 53, 53': connector.
54: stirring blades. 60: mortar mixing container.
100: mortar manufacturing apparatus.

Claims (8)

As a mortar manufacturing apparatus 100 for bus duct molding,
A body container 10, a lid 20 covering the body container 10, a motor 30 installed on the lid 20 of the body container 10, and a nozzle on the outside of the body container 10 It consists of a vacuum pump 40 connected through a stirring means 50 connected to the rotation shaft 31 of the motor 30 and rotating in the main body container 10, and the main body container 10 has inside In the mortar manufacturing apparatus for bus duct molding, in which three or more supports (12, 12') for accommodating the mortar mixing container 60 are formed,
The upper outer side of the body container 10 is provided with a stepped portion 15 having three or more fastening holes 11 formed therein, and an O-ring groove portion 25 is formed in the stepped portion 15 of the ready-to-use body container 10 . and a lid portion fastening hole 11 ′ that matches the fastening hole 11 is formed on the outside of the lid 20 of the body container 10 , and at least 3 A through hole is formed there, so that the vacuum release valve (V1), the vacuum state check gauge (G) or the vacuum pump 40 is connected, and the motor 30 and the stirring shaft 52 of the stirring means 50 are connected It is connected through a shaft 31 ′, the connection shaft 31 ′ is surrounded by a bearing housing 32 , and the motor 30 is installed on the motor holder 33 above the bearing housing 32 . and the mortar mixing container 60 is disposable, characterized in that the mortar manufacturing apparatus for bus duct molding.
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