KR20190030356A - Gyratory Compactor - Google Patents

Abstract

The present invention relates to a gyratory compactor which can be gyrated and apply pressure to compact a sample when a sample for testing asphalt concrete is manufactured. According to an embodiment of the present invention, a gyratory compactor is provided, which comprises: an asphalt concrete mold unit containing an asphalt concrete sample; and a gyratory compacting unit pressing the asphalt concrete mold unit while tilting and gyrating the asphalt concrete unit.

Description

{Gyratory Compactor}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a swing compaction machine, and more particularly, to a swing compaction machine capable of turning pressure while applying a sample for testing an ascon.

Ascon is an abbreviation of asphalt concrete. It is a mixture of aggregates such as sand and gravel combined with melted asphalt. It is a construction material used for a variety of purposes such as roadway packaging, underground waterworks, and roofing materials.

These asphalt or asphalt mixtures are used and classified for various purposes according to their constituents. They are classified into three categories: adhesiveness, extensibility, water absorption, weather resistance, corrosion resistance, And the like. Recently, there has been an increasing tendency to use recycled synthetic resin, waste aggregate, and the like in a mixture other than asphalt for recycling.

In the process of developing such a new asphalt mixture, it is important to mix proper ratio, but it is necessary to derive optimal mixing ratio and compaction pressure value by repeated experiments on how the characteristic changes when a certain compaction is performed. Asphalt compactors are used to compress the specimen.

However, when compressing asphalt, it is difficult to produce accurate specimens such as large voids in the inside. Thus, there is a need for a compactor capable of solving this problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to minimize the generation of pores, to comply with KS F 2377: 2001 (compaction method and density test method of asphalt mixture using a rotary compaction machine) It is a problem to provide a swing compaction device capable of producing a value.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

According to an embodiment of the present invention, there is provided a swing compaction apparatus including an ascon mold unit containing an ascon sample, and a turning compaction unit which presses the ascon mold unit while tilting and rotating the ascon mold unit .

The ascon unit may further include an ascender detaching unit for detaching the ascon from the ascon mold unit in a state where the asconcrete sample is pressurized.

Wherein the ascon mold unit includes an ascon mold container in which an empty space in which the inside of the ascon sample is vertically disposed in the shape of a pipe opened in an up and down direction and a flange protruding from the outside circumferential is formed, A lower pressing plate inserted into the space and positioned below the ascon sample, and an upper pressing plate inserted into the space of the ascon mold container and positioned above the ascon sample.

Wherein the swing compaction unit includes a leg portion contacting the upper and lower surfaces of a flange portion of the ascon mold container and inclining the ascon mold container, a base on which the ascon mold container is placed, A rotating motor rotated to rotate the part, a rotating motor rotating the rotating base, and a press press which is drawn into the inside of the ascon mold container and presses the asconone sample accommodated in the inside of the ascon mold container.

Wherein the leg portion includes a lift motor for generating a rotational force, a screw rotatably receiving the rotational force of the lift motor, the screw having a screw thread formed on an outer circumferential surface of the screw, A ring-shaped lifting plate which is moved in the vertical direction along the inner circumferential surface of the lifting plate and has a hollow formed therein, the inner circumferential surface of the inner lifting plate being opened to allow the pressure press to pass therethrough; A lifting leg that is lifted and lowered together with the lifting and lowering of the lifting plate and is in contact with upper and lower surfaces of a flange portion of the ascon mold container; One side of which is connected to the elevating leg, and the other side of which is the other side May be hinged to the rotating legs and may include links for transmitting rotational force of the rotating legs to the elevating legs.

The link is formed in a circular shape with a central portion opened to allow the press to pass therethrough, and the leg portion is hinged between the elevating leg and the rotating leg of the link to receive the rotational force of the rotating leg And a follower leg which ascends and descends along a slope of the link due to the ascending and descending of the ascending leg and contacts the upper and lower surfaces of the flange of the ascon mold container.

Wherein the portion of the ascending leg, the rotating leg, and the follower leg that is in contact with the flange of the ascon mold container contacts the upper surface of the flange of the ascon mold container and has an upper protrusion having a circular cross section, A lower protrusion having a circular cross section may be provided so as to contact the lower surface of the flange of the ascon mold container.

The asbestos release unit includes an escape base on which the asphalt mold container with the asphalt poured state is placed in the pivoting compaction unit. The asbestos mold container is provided on the upper side of the release base, and is connected to the upper surface of the flange of the ascon mold container. A stopper for restricting upward movement of the lower presser plate, a stopper which is placed on the release base and is raised from the lower side of the ascon mold container where the flange is connected to the lower side of the stopper to the inner space of the ascon mold container to push the lower presser plate upward As shown in FIG.

According to the present invention, since the asphalt can be tilted and rotated while applying pressure to the asphalt, the asphalt can be uniformly pressed without voids therein, and accurate results can be obtained in the repeated test.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

The foregoing summary, as well as the detailed description of the preferred embodiments of the present application set forth below, may be better understood when read in conjunction with the appended drawings. For the purpose of illustrating the invention, there are shown preferred embodiments in the figures. It should be understood, however, that this application is not limited to the precise arrangements and instrumentalities shown.
1 is a view showing a swing compaction apparatus of the present invention;
FIG. 2 is an exploded perspective view showing the ascon mold unit of FIG. 1; FIG.
FIG. 3 is a view showing the turning compaction unit of FIG. 2;
FIG. 4 is a perspective view of FIG. 3; FIG.
5 is a view showing a lifting motor and a screw of the turning compaction unit of FIG. 2;
FIG. 6 is a view showing a coupling relationship between the lifting leg and the lifting plate of FIG. 2;
FIG. 7 is a view showing the pivoting compaction unit in a state in which the lifting leg of FIG. 2 is raised;
8 is a view showing a state in which the ascon mold unit is mounted on the turning compaction unit and rotated while being inclined;
FIG. 9 is a top view of the leg portion of FIG. 2; FIG.
FIG. 10 is a view showing the ascender removing unit of FIG. 1; FIG.
11 is a view showing a state in which the inner ascon is pushed out in a state where the ascon mold unit of Fig. 2 is mounted on the asconsole releasing unit of Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

The turning compaction apparatus 10 according to the present embodiment may include an ascon mold unit 100, a turning compaction unit 200, and an ascending unit 300 as shown in FIG.

2, the ascon mold unit 100 may include an ascon mold container 110, a lower pressure plate 130, and an upper pressure plate 120, A hollow space in which the asbestos specimen is placed is formed in a pipe shape in which the inside of the pipe is opened in an up-and-down direction, and a flange 112 protruding from the outer periphery is formed have.

The lower pressure plate 130 may have a circular disk shape to be inserted into the space of the ascon mold vessel 110, and may be positioned below the ascon sample.

The upper pressure plate 120 may have a circular disk shape to be inserted into the space of the ascon mold vessel 110, and may be located above the asconone sample.

That is, the upper pressurizing plate 120 and the lower pressurizing plate 130 are positioned on the upper side and the lower side of the asconone sample, respectively, inside the ascon mold vessel 110.

3 to 5, the swivel compaction unit 200 is a constituent element for pressing and compacting the ascon mold unit 100 containing the ascon sample, while tilting and rotating the ascon mold unit 100. The swing compaction unit 200 includes a leg portion 210, A base 260, a rotating base 270, a rotating motor 280, and a press 290.

The leg portion 210 contacts the upper and lower surfaces of the flange 112 of the ascon mold container 110 and rotates the ascon mold container 110 while tilting it.

A base 260 on which the ascon mold container 110 is placed is provided below the leg portion 210.

The rotation base 270 is provided in the form of a ring around the base 260 and can be rotated to rotate the leg portion 210 in combination with the leg portion 210.

Further, a rotating motor 280 for rotating the rotating base 270 may be provided.

The press 290 is provided on the upper side of the leg portion 210 and is inserted into the inside of the ascon mold container 110 coupled to the leg portion 210 and inserted into the inside of the ascon mold container 110, .

4 and 5, the leg unit 210 includes a lifting motor 220, a screw 230, a lifting plate 240, a lifting leg 252, a rotating leg 254, A follower leg 256, and a link 258.

5, the screw 230 is rotated by receiving a rotational force from the elevating motor 220 by means of a belt 222 formed with gear teeth or the like, and the screw 230 is rotated in the up-and-down direction And a screw thread may be formed on the outer circumferential surface thereof.

The lifting plate 240 is screwed with the screw 230 on the inner circumferential surface of the hole through which the screw 230 passes, And may be formed in a ring shape having a hollow opening so that the press 290 passes through the central portion.

6, the lifting leg 252 is rotatably coupled along a hollow inner circumferential surface of the lifting plate 240. When the lifting plate 240 is moved up and down in the vertical direction Respectively.

The ascending leg 252 is brought into contact with the upper and lower surfaces of the flange 112 of the ascon mold vessel 110 to move the ascending leg 252 up and down, The flange 112 of the flange 110 can also be moved upward and downward.

A portion of the lifting leg 252 coupled to the lifting plate 240 is coupled to a portion of the lifting plate 240 in the thickness direction of the lifting plate 240 so that the lifting plate 252 rotatably engages with the hollow inner peripheral surface of the lifting plate 240. [ The inner circumferential surface of the lifting plate 240 is sandwiched between the protrusions 253 so that the lifting plate 240 is lifted and lowered along the lifting and lowering movement of the lifting plate 240. At this time, the protrusion 253 may be rotatably provided.

4 and 7, the rotating leg 254 is rotated along the rotation of the rotating base 270 with the lower end thereof being engaged with the rotating base 270 described above, To contact the upper and lower surfaces of the flange 112 of the flange 112 of the housing 110.

The link 258 is coupled to the lifting leg 252 at one side and hinged at the other side to the rotating leg 254 so that the rotational force of the rotating leg 254 is transmitted to the lifting leg 252 .

At this time, the link 258 may be formed in a circular ring shape to secure a space through which the press 290 passes.

The driven leg 256 is hinged between the lifting leg 252 of the link 258 and the coupled rotation leg 254 and is rotated by receiving the rotational force of the rotating leg 254, And may be provided to contact the upper and lower surfaces of the flange 112 of the ascon molded container 110. The ascending /

That is, the rotation leg 254 is rotated along with the rotation of the rotation base 270, and the lift leg 252 and the follower leg 256 combined with the rotation leg 254 can also be rotated.

Also, the link 258 is inclined according to the ascending and descending of the ascending / descending leg 252, and the leg follower leg 256 can be also ascended or descended along the inclination of the link 258.

A portion of the ascending leg 252 and the rotating leg 254 and the follower leg 256 which contact the flange 112 of the ascon mold vessel 110 is connected to the flange 112 of the ascon mold vessel 110 An upper protrusion 255 having a circular cross section and contacting the upper surface of the ascon mold container 110 and a lower protrusion 257 having a circular cross section and contacting the lower surface of the flange 112 of the ascon mold container 110 .

Of course, the upper protrusion 255 and the lower protrusion 257 may be rotatable rollers.

8, when the ascending / descending leg 252 and the driven leg 256 are lifted and lowered, the lifting leg 252 and the driven leg 256 of the ascon mold container 110 are coupled with the lifting leg 252 and the driven leg 256, And in this state, the elevating leg 252, the driven leg 256, and the rotating leg 254 are rotated as they are rotated, and can be tilted and moved in a shaking manner.

The upper press plate 120 and the ascon 114 can be pressed by pressing down the press 290 while the ascon mold container 110 is shaken and being drawn into the space of the ascon mold container 110.

Therefore, since the ascon mold 114 is squeezed while the ascon mold container 110 is squeezed, the voids can be minimized, and accurate results can be obtained in the repeated test.

9, it may be disposed within a semicircular range of the arc so as to secure a space for entering and leaving the ascon mold vessel 110. [

That is, the legs are not provided within the remaining half-circle range, thereby securing a space in which the ascon mold container 110 enters and leaves.

The asbestos release unit 300 may include a release base 310, a stopper 320, and a release press 330, as shown in FIGS. 10 and 11.

The release base 310 is a component in which the ascon mold container 110 in which the asphalt poured in the pivot compaction unit 200 is placed and the stopper 320 is provided on the upper side of the release base 310 And the upper surface of the flange 112 of the ascon mold container 110 to prevent the ascon mold container 110 from moving upward.

At this time, the front side of the stopper 320 is opened to secure a space in which the ascon mold container 110 enters and leaves.

The release presser 330 is provided below the release base 310 and is disposed below the ascon mold container 110 where the flange is connected to the lower side of the stopper 320. [ And may be provided to push up the lower pressing plate 130 upward.

The asbestos mold container 110 with the compaction and pressing operation completed in the turning compaction unit 200 is placed on the release base 310 through the open side of the stopper 320 and the flange 112 Is released from the lower end of the stopper 320 and the escape presser 290 is moved upward to enter the ascon mold container 110 to push the lower pressure plate 130 in the ascon mold container 110 upward The asbestos sample 114 can be taken out.

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them. Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

100: Ascon mold unit 110: Ascon mold container
112: Flange 114: Ascon
120: upper pressure plate 130: lower pressure plate
200: turning compaction unit 210:
220: lift motor 230: screw
240: lift plate 252: lift lever
254: rotating leg 256: driven leg
258: Link 260: Base
270: rotation base 280: rotation motor
290: Press 300: Ascon release unit
310: release base 320: stopper
330: release press

Claims (8)

An ascon mold unit containing an ascon sample;
A rotating compaction unit which pressurizes the ascon mold unit while tilting and rotating the ascon mold unit;
Lt; / RTI > The method according to claim 1,
An asconcentration unit for releasing the ascon from the ascon mold unit in a state where the asconcrete sample is pressurized;
Further comprising: The method according to claim 1,
Wherein the ascon mold unit comprises:
An ascon mold container in which an empty space in which the asconcrete sample is placed is formed in a pipe shape having an interior opened in an up and down direction in a vertical direction and a flange protruding outwardly is formed;
A lower platen inserted into the space of the ascon mold vessel and positioned below the ascon sample;
An upper platen inserted into the space of the ascon mold vessel and positioned above the ascon sample;
Lt; / RTI > The method of claim 3,
The turning compaction unit includes:
A leg portion contacting the upper and lower surfaces of the flange portion of the ascon mold container and tilting the ascon mold container;
A base on which the ascon mold container is placed;
A rotating base formed around the base and rotated to rotate the leg portion;
A rotary motor for rotating the rotary base;
A pressing press which is drawn into the inside of the ascon mold container from above and pressurizes the ascon sample contained in the inside of the ascon mold container;
Lt; / RTI > 5. The method of claim 4,
The leg portion
A lift motor for generating a rotational force;
A screw which is rotated to receive a rotational force of the elevating motor and is arranged to have a longitudinal direction in an up and down direction and has a thread formed on an outer circumferential surface thereof;
A ring-shaped lifting plate having a hollow through which the screw passes, which is moved in the vertical direction along the rotation of the screw, and is opened on the inner circumferential surface so as to allow the pressing press to pass therethrough;
A lifting leg which is rotatably coupled along the inner circumferential surface of the lifting plate and is connected to the upper and lower surfaces of the lifting plate and lifted and lowered together with the lifting plate and is in contact with the upper and lower surfaces of the flange of the ascon mold container;
A rotation leg coupled to the rotation base to be rotated by rotation of the rotation base, the rotation leg contacting the upper and lower surfaces of the flange portion of the ascon mold container;
A link hinged to one of the elevating legs and the other of the elevating legs, respectively, and transmitting rotation force of the rotating leg to the elevating legs;
Lt; / RTI > 6. The method of claim 5,
Wherein the link is formed in a circular shape with a central portion thereof opened at a central portion thereof so as to allow the press to pass therethrough,
The leg portion
The link is hinged between the lifting leg and the rotating leg of the link and is rotated by receiving the rotational force of the rotating leg and is lifted and lowered along the inclination of the link according to the lifting and lowering of the lifting leg, A follower leg contacting the upper and lower surfaces of the frame;
Further comprising: The method according to claim 6,
The portion of the ascending leg, the rotating leg, and the follower leg, which is in contact with the flange of the ascon mold container,
An upper protrusion contacting the upper surface of the flange of the ascon mold container and having a circular cross section;
A lower protrusion spaced apart from the upper protrusion in a vertical direction and contacting a flange bottom surface of the ascon mold container and having a circular cross section. The method of claim 3,
The above-mentioned asbestos-
An unloading base on which the ascon mold container in which the ascon mold is placed in the turning compaction unit is placed;
A stopper provided on the release base, the stopper being connected to an upper surface of a flange of the ascon mold container to restrict movement of the ascon mold container upward;
A release press provided on the lower part of the release basin and raised from the lower side of the ascon mold container where the flange is connected to the lower side of the stopper to the inner space of the ascon mold container to push the lower pressure plate upward;
Lt; / RTI >

Images