KR101533335B1 - Device For Manufacturing The Conslat And Manufacturing Method Using The Same - Google Patents

Abstract

The present invention relates to an apparatus for manufacturing a high strength concrete slate, and a method for manufacturing a high strength concrete slate using the same. More particularly, according to the present invention, tension of driving belts for transmitting power are continuously maintained to allow the power to be smoothly transmitted, and appropriate vibration is applied to a molding frame by vibrators such that concrete slate mortar is uniformly hardened to have improved density and strength. The apparatus for manufacturing a high strength concrete slate comprises: a table (10) comprising a concrete slate molding frame mounted on an upper end portion thereof, and an elastic spring (120) installed on each leg (110) of a lower portion thereof for supporting the weight of the concrete slate molding frame; two fixing plates (20) installed on both sides of the table (10) to protrude forward; two vibrators (30) for generating vibrations, each having a plurality of bearings (310) and a plurality of eccentric cams (320) installed to be placed apart from each other, in a longitudinal direction, at predetermined intervals on a shaft (300) installed under the table (10), on one side of the fixing plate (20); two vibration motors (40) each installed on the other side of the fixing plate (20), for transmitting power to the vibrators (30) through a driving belt (410) installed inside the fixing plate (20); and two belt tension maintaining units (50) installed on the driving belts (410), respectively, for maintaining tension of the driving belts (410).

Description

Technical Field [0001] The present invention relates to a high strength concrete slurry manufacturing apparatus and a high strength concrete slurry manufacturing method using the same,

More particularly, the present invention relates to an apparatus for manufacturing a high strength konla slat and a method for manufacturing a high strength konla slat using the same. More particularly, To a mold, thereby making it possible to increase the density and strength of the concrete slab, and to a method of manufacturing a high strength concrete slab using the same.

The concrete slab is a rectangular concrete structure with a long hole at regular intervals. It is a secondary concrete product that plays the role of poultry excrement which is raised in pig farms, It is a necessity that should not be necessary.

Such a concrete slat uses a molding device for making various concrete blocks or a molded product using a molding device provided with a vibration device and a power transmission device for a vibration table for imparting vibration to a vibration table of a concrete molding device, Shin, No. 20-0423568, wherein a plurality of vibrating bodies are connected to the bottom of the vibrating table, and power is transmitted by a separate motor to each of the plurality of vibrating bodies so that the vibrating body vibrates. So that the tuning is performed through the servo motor controlled by the servo motor.

However, when a submotor with a high unit price is used for the synchronous motors, the motor has a separate motor for each vibrating body, and a remarkable manufacturing cost is increased. Also, excessive vibrations are applied to the vibration table and the compaction of the concrete mortar is not smooth. There is a problem that the detached mortar enters into some parts and causes frequent failure.

The present invention provides a belt tension maintaining unit on a driving belt to effectively maintain the tension of a driving belt to transmit power generated from a vibration motor smoothly to a vibrating body and to provide a plurality of eccentric cams The present invention provides a high-strength concrete slat manufacturing apparatus and a method of manufacturing a high-strength concrete slat using the same, which can appropriately form a high-density conglomerate mortar to be filled in a mold by generating an appropriate residual vibration on a table through a vibrating body .

The apparatus for manufacturing a conglat according to the present invention includes a table 10 on which a conglomerate forming frame is mounted at an upper end and an elastic spring 120 is installed on each leg 110 at a lower end to absorb the weight of the molding press mold. A fixing plate 20 protruding forward from both sides of the lower surface of the table 10; A plurality of bearings 310 and a plurality of eccentric cams 320 spaced at a predetermined interval in the longitudinal direction and a plurality of eccentric cams 320 are installed on a shaft 300 provided at one side of the fixing plate 20 at a lower portion of the table 10, A vibrating body 30 for generating vibrations in the vibrating body 30; A vibration motor 40 installed on the other side of the fixing plate 20 and transmitting power to the vibrating body 30 by a driving belt 410 installed inside the fixing plate 20; And a belt tension holding part 50 provided on the driving belt 410 to maintain the tension of the driving belt 410.

The present invention can continuously transmit the power of the vibration motor to the vibrating body by maintaining the tension of the drive belt continuously, and by appropriately vibrating the molding frame filled with the konstal mortar, the mortar is evenly and smoothly compacted, It is possible to prevent the occurrence of defects in the molded product due to excessive vibration and insufficient vibration, and to improve the quality and productivity of the concrete slab.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a high-strength concrete slat manufacturing apparatus according to the present invention. FIG.
Fig. 2 is a front view of a high-strength conglomerate manufacturing apparatus according to the present invention
3 is a view showing a manufacturing process of a high-strength conglomerate according to the present invention.
4 is a test report showing the compressive strength of a high strength konstalt according to the present invention.

The apparatus for manufacturing a high-strength conglomerate according to the present invention comprises a table 10 on which a conglomerate forming frame is seated at an upper end and an elastic spring 120 for absorbing the weight of a conglomerate forming frame is installed on each leg 110 at a lower end );

A fixing plate 20 protruding forward from both sides of the lower surface of the table 10;

A plurality of bearings 310 and a plurality of eccentric cams 320 spaced at a predetermined interval in the longitudinal direction and a plurality of eccentric cams 320 are installed on a shaft 300 provided at one side of the fixing plate 20 at a lower portion of the table 10, A vibrating body 30 for generating vibrations in the vibrating body 30;

A vibration motor 40 installed on the other side of the fixing plate 20 and transmitting power to the vibrating body 30 by a driving belt 410 installed inside the fixing plate 20;

And a belt tension holding part (50) provided on the driving belt (410) to maintain the tension of the driving belt (410).

A method of manufacturing a high-strength conglat using a high-strength conglat is characterized in that the power of the vibration motor 40 is transmitted to the shaft 300 through a drive belt 410 provided with a belt tension holding part 50, A method for manufacturing a concrete slat using a concrete slat manufacturing apparatus in which a vibrating body (30) provided with an eccentric cam (320) in a longitudinal direction is installed on both sides of a lower portion of a table (10)

Installing a conglomerate forming mold on the upper surface of the table (10);

Filling the mortar with 20 to 25% by weight of cement, 70 to 75% by weight of crushed stone aggregate having a particle size of 1 to 5 mm and 1 to 5% by weight of water, into the concrete slab;

Operating the vibration motor (40) to vibrate the conglomerate forming mold with vibration applied to the table (10);

Pressing and molding the upper surface of the mortar filled in the molding mold to form a molding;

Separating the molded konstal from a mold, curing at room temperature, and curing at a compressive strength of 50 to 55 MPa.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a plan view of a high-intensity cone-lighting apparatus according to the present invention, and FIG. 2 is a front view of a high-intensity cone-lighting apparatus according to the present invention. 3 is a view illustrating a manufacturing process of a high-strength conglomerate according to the present invention. 4 is a test report showing the compressive strength of a high-strength concret slate according to the present invention.

As shown in FIGS. 1 and 2, a square table 10 on which a conglomerate forming frame is mounted at an upper end thereof is formed with a plurality of legs 110 at a lower end thereof, In order to reduce the impact applied to the table 10 by the weight and vibration of the molding machine, the elastic legs 120 are installed and supported on the respective legs 110.

The fixing plate 20 is installed on both side surfaces of the lower portion of the table 10 so as to protrude forward.

The oscillator 30 is a lower portion of the table 10 and is installed at one side of the fixed plate 20 provided at the lower portion of the table 10 to generate vibration in the table 10, A plurality of bearings 310 are installed on the lower side of the table 10 and the shaft 300 is provided with a plurality of bearings 310 for supplying lubricating oil L to the shaft 300 to increase the rotational force of the shaft 300, A plurality of eccentric cams 320 are provided so as to be spaced apart from each other at a predetermined distance from the center of the table 300. The eccentric cam 320 rotates the center of gravity of the shaft 300, The vibration transmitted to the table 10 allows the mortar filled in the molding mold to be stably and uniformly compacted by the residual vibration transmitted to the table 10, to be compactly and densely molded, and the mortar to be molded in the molding die Escaped A is configured to prevent.

The vibrating motor 40 is installed on the other side of the fixed plate 20 provided with the vibrating body 30 and generates power to the vibrating body 30. The vibrating motor 40 is disposed inside the vibrating body 30, And the vibrating body 30 are provided with a drive belt 410 to transmit the power of the vibration motor 40 to the vibrating body 30 through the drive belt 410. [

The belt tension holding part 50 is installed on the driving belt 410 to maintain the tension of the driving belt 410 and the belt tension holding part 50 is circumscribed on the upper part of the driving belt 410 And a support rod 520 which is installed on the rotation gear 510 and extends to a lower portion of the rotation gear 510 and is fixed to the bottom frame 100 provided at the bottom of the table 10, And a lower portion thereof is fixed to the bottom frame 100 at one side of the support rod 520 and an upper portion thereof is connected to an upper portion of the support rod 520 to elastically support a tension holding spring 530 having an elastic force, So that the tension of the drive belt 410 can be maintained.

That is, when the concrete slab forming frame is seated on the table 10, the table 10 is lowered by the load of the concrete slab forming mold, The tension belt 530 of the belt tension retaining portion 50 is elastically provided on the support bar 520 and the tension of the support bar 410 The tension of the drive belt 410 is continuously maintained so that the power of the vibration motor 40 is smoothly transmitted to the vibrating body 30 It can be delivered.

In addition, on both sides of the table 10, the mortar filled in the molding die of the kon slat is released to the outside of the molding die due to vibration during the molding of the conglomerate, thereby preventing the malfunctioning And a support plate 60 for collecting the mortar to be detached.

A method of manufacturing a high-strength konla slat using the apparatus for manufacturing a high-strength konla slat having the above-described structure will be described with reference to the process chart shown in FIG.

Example 1

First, a concrete slab molding frame is installed on the upper surface of the table 10 of the concrete slurry manufacturing apparatus (S10)

Thereafter, 20 to 25% by weight of cement, 1 to 5 mm of crushed stone (granite and porcelain), and 70 to 50% by weight of crushed stone aggregate are mixed with 1 to 5% And filled in a slat forming mold (S20).

Next, when the molding slurry is charged into the molding slurry, the vibration motor 40 is operated to apply vibration to the table 10 so as to have an amplitude of 50 to 130 mm and a vibration speed of 5000 to 5500 rpm to fill the molding slurry So that the mortar can be uniformly compacted (S30)

Thereafter, the upper surface of the mortar filled in the concrete slurry forming mold is pressed and surface-treated to uniformly form the upper surface (S40).

After molding the concrete mortar, the molded concrete slurry is separated from the mold and cured at room temperature to complete the production of a concrete slab having a compressive strength of 50 to 55 MPa (S50).

As can be seen from the test report of FIG. 4, the concrete slat produced in Example 1 is prepared by mixing crushed stone (granite, porcelain stone, etc.) with crushed aggregate of 1 to 5 mm in size with cement, (Granite, porcelain and the like) have strong strength and surface is sharp or very rough during the process of crushing, so that the fine cement is tightly adhered to the surface of the crushed stone. Therefore, The crushed stone aggregate can be stably held in the mortar by the vibration applied to the concrete slat mortar through the vibrating body 30 so that a high strength concrete slurry having a compressive strength of 50 to 55 MPa can be manufactured.

The vibrations applied from the vibration motor 40 to the table 10 for applying vibration to the molding die are preferably 50 to 130 mm in amplitude and 5000 to 5500 rpm in vibration speed, If the maximum range is exceeded, the aggregate will rise to the upper side of the molding frame or the filled mortar will be excessively detached from the molding frame. If the minimum range is exceeded, molding is difficult because the mortar is not uniformly formed. So that the molding can be easily performed even if water is mixed little and the mortar structure becomes dense so that a compressive strength of 50 to 55 MPa can be realized.

Although the present invention having been described above has been described with reference to a limited number of embodiments, it is to be understood that the present invention is not limited thereto and that various changes and modifications may be made without departing from the spirit and scope of the present invention by those skilled in the art. Various modifications and variations are possible within the scope of the appended claims.

10-table
20-plate
30-vibrating body
40-vibration motor
50-belt tension holding portion
110-leg
120-Elastic spring
300-shaft
310-bearing
320-eccentric cam
410-drive belt
510-turning gear
520-support bar
530-tension retention spring

Claims (5)

A table 10 having an upper end portion on which a concrete slab forming frame is seated and an elastic spring 120 for absorbing the weight of the molding press mold on each leg 110 of the lower end portion;
A fixing plate 20 protruding forward from both sides of the lower surface of the table 10;
A plurality of bearings 310 and a plurality of eccentric cams 320 spaced at a predetermined interval in the longitudinal direction and a plurality of eccentric cams 320 are installed on a shaft 300 provided at one side of the fixing plate 20 at a lower portion of the table 10, A vibrating body 30 for generating vibrations in the vibrating body 30;
A vibration motor 40 installed on the other side of the fixing plate 20 and transmitting power to the vibrating body 30 by a driving belt 410 installed inside the fixing plate 20;
And a belt tension holding part 50 provided on the driving belt 410 to maintain the tension of the driving belt 410,
The belt tension holding unit 50 includes a turning gear 510 installed at the upper end of the driving belt 410 and a supporting rod 520 fixed to the bottom frame 100, And a tension retaining spring (530) installed on the support rod (520) at an upper portion and a lower end fixed to the bottom frame (100) at one side of the support bar (520). delete The method according to claim 1,
And a support plate (60) for collecting the mortar separated from the molding of the conglomerate on both sides of the table (10). The oscillating body 30 in which the power of the vibration motor 40 is transmitted by the drive belt 410 provided with the belt tension holding part 50 and the shaft 300 is provided with the plurality of eccentric cams 320 in the longitudinal direction A method of manufacturing a concrete slat using a concrete slat manufacturing apparatus installed on both sides of a lower portion of a concrete slab (10)
Installing a conglomerate forming mold on the upper surface of the table (10);
Filling the mortar with 20 to 25% by weight of cement, 70 to 75% by weight of crushed stone aggregate having a particle size of 1 to 5 mm and 1 to 5% by weight of water, into the concrete slab;
Operating the vibration motor (40) to vibrate the conglomerate forming mold with vibration applied to the table (10);
Pressing and molding the upper surface of the mortar filled in the molding mold to form a molding;
Wherein the step of curing the compacted slurry at a compression strength of 50 to 55 MPa is carried out by separating the molded slurry from the mold and curing at room temperature and curing the compacted slurry at a compression strength of 50 to 55 MPa. The method of claim 4,
Wherein the vibrating step has a vibration amplitude of 50 to 130 mm and a vibration speed of 5000 to 5500 rpm.

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