WO2023075068A1 - Asphalt concrete insulation box - Google Patents

Abstract

The present invention relates to an asphalt concrete insulation box and, more specifically, to an asphalt concrete insulation box which accommodates asphalt concrete shipped from an asphalt concrete manufacturing device and keeps the asphalt concrete at a constant temperature until the asphalt concrete is transported and discharged to a road construction site. The present invention comprises: a box body of which the top is open; a cover for covering the open top of the box body; and a rail-type cover opening and closing device for opening and closing the cover from the box body. The box body is formed of an outer box of which the top is open and an inner box provided inside the outer box; a separation space is formed between the outer box and the inner box by means of a plurality of fixing devices provided between the outer box and the inner box; a high temperature insulation material is filled in the separation space formed between the outer box and the inner box; and a desiccant is applied to the separation space between the outer box and the inner box, so as to prevent the generation of moisture caused by a temperature difference between outside air and the asphalt concrete in the separation space.

Description

Ascon warming box

The present invention relates to an ascon warming box, and more particularly, to an ascon warming box that accommodates asphalt shipped from an asphalt manufacturing device and allows the asphalt to be maintained at a constant temperature until transported to a road construction site and discharged. it's about

In general, asphalt concrete (hereinafter referred to as 'ascon') used for road pavement is a black solid or semi-solid material, the main component of which is hydrocarbon, and a solid component called asphaltene is dispersed in an oil component called martin.

These ascons are divided into road pavement and airport pavement depending on their type, or are used for waterproofing in the pavement or construction field.

In particular, asphalt, which is mainly used for road paving or airport paving, etc., is used by mixing aggregates such as sand, stone powder, crushed stone, gravel, etc., which is called ascon.

Such ascon can be transported by a separate ascon storage device that can be transported while maintaining the temperature of the ascon in order to maintain the quality of the ascon in the transportation from the manufacturing plant to the road construction site.

As such, a movable asphalt concrete storage device capable of storing and moving asphalt concrete is disclosed in Republic of Korea Utility Model Registration No. 20-0454650 (movable asphalt concrete storage device, hereinafter referred to as 'prior art').

The prior art includes a heater unit installed on one side of the loading unit; a flow path extending from the heater unit and communicating with the receiving unit; a blower supplying the heat generated in the heater unit to the receiving unit through the flow path; Ascon discharge unit for discharging the asphalt concrete in the accommodating unit through a discharge port formed on the lower side of the loading unit; A first sensor for sensing the temperature of the asphalt concrete in the receiving unit; A second sensor provided at an end of the outlet to detect the temperature of the asphalt concrete discharged through the outlet; And a control unit that compares the detected values of the first and second sensors and controls the heater unit so that the heater unit further generates additional heat for maintaining the temperature of the asphalt concrete discharged by compensating for the difference at a predetermined temperature; A portable ascon storage device that can be easily transported to the construction site while maintaining the ascon at a constant temperature, and can maintain the temperature of the discharged ascon at an appropriate temperature for construction even if the received ascon is discharged for construction. Its purpose is to provide

However, the prior art has a structure in which a flow path is formed in the loading unit for accommodating the asphalt concrete to supply heat generated through the heater unit to the flow path, so that the structure of the loading unit is very complicated, and in order to continuously maintain the temperature of the asphalt concrete There is a problem in that the heater unit must be continuously operated.

In addition, even if heat is supplied to the ascon in the accommodating unit through the heater unit, the heat is transferred only to the outside of the accommodating unit and is not sufficiently transmitted to the inside, so it is difficult for the heat to affect the ascon disposed inside the accommodating unit. There is a problem that it is difficult to maintain an appropriate temperature.

In addition, even if the heat is transferred to the asphalt concrete well through the heater part, if too much heat is transferred to the receiving part and the temperature of the asphalt concrete exceeds the proper temperature, the temperature of the asphalt concrete discharged to the asphalt discharge part is too high, causing the AP to flow down from the aggregate, resulting in desorption. There are problems that can cause

Therefore, in the ascon storage device for storing and transporting ascon, it is necessary to develop an ascon warming box that can be stored and transported while maintaining the temperature of ascon at an appropriate temperature from the ascon manufacturing plant to the road construction site even with a simple structure. am.

In addition, it is required to improve the opening and closing device for opening and closing the cover of the ascon warming box and the sealing device for sealing the cover to a structure that can be easily operated.

The present invention has been made to solve the above problems, by applying a rail-type cover opening and closing device composed of a rail and a chain to the cover of an ascon warming box so that the cover of the ascon warming box can be easily opened and closed, and the cover can be pressed It is an object of the present invention to provide an ascon warming box that has a pressurizing device so that the ascon warming box can be easily sealed.

In addition, between the outer box and the inner box and between the upper plate and the lower plate of the cover to form a separation space for providing a high-temperature insulating material and an insulating board, fixing between the outer box and the inner box and between the upper plate and the lower plate of the cover to each other By preventing the fixing device from directly contacting the inner box and the upper plate of the cover, the heat of the ascon loaded inside the ascon insulation box is prevented from being conducted to the outer box and the upper plate of the cover. The purpose of providing an ascon warming box that can be transported while maintaining the temperature of ascon at an appropriate temperature from an ascon manufacturing plant to a road construction site without having a heater for heating the ascon in the ascon warming box by blocking the emission by being conducted into the ascon warming box there is

In addition, by applying a desiccant to the space between the outer box and the inner box and between the upper and lower plates of the cover, the difference in temperature occurs in the space between the outer box and the inner box and between the upper and lower plates of the cover. The purpose is to provide an ascon warming box that can be transported while maintaining the ascon loaded inside the ascon warming box at an appropriate temperature for a long time by blocking the heat of the ascon loaded inside the inner box from being conducted to the outside through the moisture in the inner box. there is

In order to achieve the above object to be solved, the ascon warming box of the present invention, in the ascon warming box for receiving the ascon and maintaining the proper temperature of the ascon, the upper side is open box body 10; a cover 30 covering the open upper side of the box body 10; A rail-type cover opening and closing device 100 for opening and closing the cover 30 from the box body 10, wherein the box body 10 includes an outer box 11 with an open upper side and the outer box ( 11) is provided on the inside but is formed in a smaller size than the outer box 11 and is formed of an inner box 13 with an open upper side, and a plurality of fixings between the outer box 11 and the inner box 13 A device 220 is provided, and the outer box 11 is fixed to the outside of the inner box 13 by the fixing device 220, so that between the outer box 11 and the inner box 13 A separation space is formed, and a high-temperature insulator 230 is filled in the separation space formed between the outer box 11 and the inner box 13, and the outer box 11 and the inner box 13 of the box body 10 are filled. ) In the spaced space between the desiccant is applied to prevent the generation of moisture due to the temperature difference between the outside air and the asphalt concrete in the spaced space between the outer box 11 and the inner box 13.

In addition, the rail-type cover opening and closing device 100 includes a guide unit 110 provided on both side surfaces of the box body 10 and both side surfaces of the cover 30 to guide the movement of the cover 30; a plurality of first cylinders 120 provided on both sides of the box body 10 to move the cover 30 and the guide part 110 up and down; a support part 130 having both ends coupled to both side surfaces of the box body 10 and formed on an upper side of one end of the box body 10; a plurality of pressing devices 140 coupled to the guide part 110 and pressing the cover 30 toward the box body 10; It is provided on the upper surface of the cover 30 and the support part 130 and the driving part 160 for moving the cover 30; characterized in that it comprises a.

In addition, a plurality of first elevating and descending guides 121 guiding the movement of the guide part 110 that is raised and lowered by the first cylinder 120 are further provided, and the plurality of first elevating and descending guides 121 ) is characterized in that it is provided on both sides of the box body 10 and on the lower side of the guide part 110.

In addition, the guide part 110, the guide frame 111 provided on both sides of the upper portion of the box body 10 and formed along the direction in which the cover 30 moves; A plurality of guide rollers 113 rotatably provided at regular intervals on the upper side of the guide frame 111; It is characterized in that it includes; guide rails 115 provided on both sides of the cover 30 and seated on the plurality of guide rollers 113.

In addition, the pressing device 140 includes a L-shaped pressing clamp 141 coupled to the guide frame 111 and a pressing member 143 provided at a portion where the pressing clamp 141 contacts the cover 30 ).

In addition, a hopper 40 formed in a trapezoidal shape with a width widening from the bottom to the top is provided on the upper side of the press device 140, and the hopper 40 is coupled to the upper end of the press clamp 141 It is characterized in that when the guide part 110 is raised and lowered by the first cylinder 120, it is raised and lowered together.

In addition, on one side of the guide frame 111, a plurality of rollers 117 rotating by the movement of the cover 30 are provided between the guide frames 111 on both sides.

In addition, the support part 130 is a pair of first cylinders 120, each coupled to the side of the pair of first cylinders 120 provided at one end side of the box body 10 among the plurality of first cylinders 120. 2 lifting and lowering guide 131; a ∩-shaped support bracket 132 having both ends coupled to the pair of second elevating and descending guides 131; A pair of side guide rollers 135 provided on the inside of the side of the support bracket 132 so that the side of the guide rail 115 comes into contact with each other.

In addition, the support part 130 includes a pair of first fixing blocks 133 each formed on the inner surface of the bent part of the support bracket 132; a pair of second fixing blocks 134 spaced apart from the first fixing block 133 and coupled to the side of the guide frame 111; A pair of first support bars 137 having one side coupled to one end of the guide frame 111 and the other side coupled to the first fixing block 133 to support the guide frame 111; A pair of second support bars 138 having one side coupled to the first fixing block 133 and the other side coupled to the second fixing block 134 to support the guide frame 111 and the support bracket 132 It is characterized in that it further includes;

In addition, the driving unit 160, the chain 161 provided on the upper surface of the cover 30; A drive motor 163 coupled to the middle portion of the support part 130; It is characterized in that it comprises a; driving gear 165 coupled to the drive motor 163 and formed to mesh with the chain 161.

In addition, the cover 30 is formed of an upper plate 31 and a lower plate 33, and a plurality of fixing devices 220 are provided between the upper plate 31 and the lower plate 33, and the fixing device ( 220), a separation space is formed between the upper plate 31 and the lower plate 33, and a high-temperature insulator 230 is formed in the separation space formed between the upper plate 31 and the lower plate 33 of the cover 30. It is characterized by being filled.

In addition, a plurality of fixing brackets 200 are formed on the outer surface of the inner box 13 of the box body 10 and the inner surface of the upper plate 31 of the cover 30, respectively, and a plurality of fixing brackets 200 are provided. A fixing bar 210 is fitted, and one side of the plurality of fixing devices 220 is coupled to the plurality of fixing bars 210 so that the plurality of fixing devices 220 are attached to the inner box of the box body 10. (13) It is characterized in that contact with the outer surface and the inner surface of the upper plate 31 of the cover 30 is blocked.

In addition, it is characterized in that the desiccant is applied to the separation space between the upper plate 31 and the lower plate 33 of the cover 30, the plurality of fixing brackets 200 and the plurality of fixing bars 210.

In addition, the fixing bar 210 is characterized in that formed of wood or MC nylon.

In addition, the upper side of the separation space between the outer box 11 and the inner box 13 of the box body 10 is characterized in that a heat insulating resin 240 is provided and finished.

In addition, the cover 30 is characterized in that the insulating resin 240 is provided on the lower side of the lower plate 33 or the lower plate 33 is formed of the insulating resin 240.

In addition, the packing material 241 is provided on the lower edge of the insulating resin 240 provided on the lower side of the cover 30 or the lower edge of the lower plate 33 of the cover 30 formed of the insulating resin 240. to be characterized

In addition, it is characterized in that the insulation board 250 is provided on the inner surface of the outer box 11 and the upper surface of the lower plate 33 of the cover 30.

In addition, an outlet 300 communicating the outer box 11 and the inner box 13 is formed on the lower side of one side of the outer box 11 and the lower side of one side of the inner box 13, and the outlet ( 300), an opening/closing door 310 for opening and closing the outlet 300 is pivotally formed by a hinge, and the opening/closing door 310 is controlled by an opening/closing cylinder 312.

In addition, it is characterized in that the insulating resin 240 is provided around the inner surface of the opening and closing door 310 in contact with the outlet (300).

In addition, the heat insulating resin 240 is characterized in that formed of a bakelite plate or MC nylon plate.

In addition, it is characterized in that the packing material 241 is provided at the edge of the insulating resin 240 provided around the inner surface of the opening and closing door 310.

In addition, a screw 400 is rotatably formed in the longitudinal direction toward the discharge port 300 at the inner lower central portion of the inner box 13, and the inside of the inner box 13 is rotated by the screw 400. Characterized in that the loaded asphalt is moved in the direction of the outlet (300).

In addition, the opening and closing door 310, it is characterized in that the auxiliary outlet and the auxiliary opening and closing door 320 of a size smaller than the size of the opening and closing door 310 is formed.

In addition, a support plate 500 for supporting the outer box 11 is provided on the lower side of the outer box 11, and an elevating member 600 is provided between the outer box 11 and the support plate 500. ) is characterized in that it is provided.

In addition, the desiccant is obtained by heating and stirring 1 to 10 parts by weight of styrene-butadiene-styrene (SBS) based on 100 parts by weight of the insulating oil to obtain a first mixture, an asphalt compound (asphalt) based on 100 parts by weight of the first mixture compound) 30 to 70 parts by weight and heating and stirring to obtain a second mixture, adding 1 to 5 parts by weight of polyaniline (PANI) based on 100 parts by weight of the second mixture and heating and stirring to obtain a third mixture, Adding 6 to 12 parts by weight of zeolite based on 100 parts by weight of the third mixture and heating and stirring to obtain a fourth mixture, 1 to 5 parts by weight of polybutene and polybutene based on 100 parts by weight of the fourth mixture Adding 0.2 to 0.8 parts by weight of methyl methacrylate (PMMA), stirring, and naturally cooling to obtain a fifth mixture, adding 30 to 70 parts by weight of xylene based on 100 parts by weight of the fifth mixture, It is characterized in that it is prepared through the step of obtaining a sixth mixture by adding and dissolving 10 to 40 parts by weight of solvent solvent No. 3 with respect to 100 parts by weight of the 5 mixture.

The present invention according to the above configuration applies a rail-type cover opening and closing device composed of a rail and a chain to the cover of the ascon warming box so that the cover of the ascon warming box is easily opened and closed, and is provided with a pressing device capable of pressurizing the cover. There is an effect of making it easy to seal the ascon insulation box.

In addition, between the outer box and the inner box and between the upper plate and the lower plate of the cover to form a separation space for providing a high-temperature insulating material and an insulating board, fixing between the outer box and the inner box and between the upper plate and the lower plate of the cover to each other By preventing the fixing device from directly contacting the inner box and the upper plate of the cover, the heat of the ascon loaded inside the ascon insulation box is prevented from being conducted to the outer box and the upper plate of the cover. By blocking the discharge by conduction to, there is an effect that can be transported while maintaining the temperature of the asphalt concrete at an appropriate temperature from the asphalt manufacturing plant to the road construction site without having a heater unit for heating the asphalt concrete in the asphalt insulation box.

In addition, by applying a desiccant to the space between the outer box and the inner box and between the upper and lower plates of the cover, the difference in temperature occurs in the space between the outer box and the inner box and between the upper and lower plates of the cover. By blocking the heat of the ascon loaded inside the inner box from being conducted to the outside through the moisture that becomes, there is an effect of transporting the ascon loaded inside the ascon warming box while maintaining it at an appropriate temperature for a long time.

1 is a perspective view showing the overall appearance of an ascon warming box according to an embodiment of the present invention.

Figure 2 is a side view showing a state viewed from the side of Figure 1;

3 is a side view illustrating a state in which the cover is lifted after the pressing device is lifted and the pressing of the cover is released.

4 is a side view illustrating a state in which a cover is moved to one side by operating a driving motor.

5 is an enlarged perspective view showing an enlarged guide portion.

Fig. 6 is an enlarged view showing the pressurizing device.

FIG. 7 is a cross-sectional view showing the inside of FIG. 1 viewed from the front.

8 is a cross-sectional view showing the inside of FIG. 1 viewed from the side.

9 is a cross-sectional view showing a state in which a screw is installed inside an ascon warming box.

10 is a cross-sectional view of FIG. 9 viewed from the side.

11 is an enlarged view illustrating an enlarged opening and closing door and an auxiliary opening and closing door.

12 is a front view showing a state in which a support plate and an elevating member are provided on the lower side of an outer box.

13 is a side view showing a state in which a support plate and an elevating member are provided on the lower side of an outer box.

14 is a side view showing a state in which the ascon insulating box of the present invention is loaded on a truck.

15 is a side view showing a state in which an ascon warming box loaded on a truck is elevated by an elevating member.

16 is a side view showing a state in which the ascon warming box in which the screw of the present invention is installed is loaded on a truck.

Since the present invention can make various changes and have various embodiments, specific embodiments are illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

When a component is said to be *?**?*connected*?**?* or *****?*connected*?**?* to another component, it is directly related to that other component. It should be understood that they may be connected or connected, but other components may exist in the middle.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs.

Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in this application, it should not be interpreted in an ideal or excessively formal meaning. don't

Hereinafter, the technical idea of the present invention will be described in more detail using the accompanying drawings. Since the accompanying drawings are only examples shown to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

Hereinafter, an ascon warming box according to an example of the present invention will be described in detail with reference to FIGS. 1 to 13.

1 is a perspective view showing the overall appearance of an ascon warming box according to an embodiment of the present invention.

Referring to FIG. 1, the ascon warming box according to an example of the present invention accommodates the ascon shipped from the ascon manufacturing device so that the ascon can be maintained at a constant temperature until the ascon is transported to a road construction site and discharged. .

In addition, the outer box 11 and the inner box 13 are formed by a plurality of fixing bars 210 and a fixing device 220 formed between the outer box 11 and the inner box 13 of the box body 10 Is spaced apart and the high-temperature insulator 230 and the desiccant are filled or applied in the space between the outer box 11 and the inner box 13 to prevent the temperature of the ascon contained in the inner box 13 from lowering Ascon This temperature can be maintained.

In addition, a heat insulating resin 240 is provided on the upper side of the separation space between the outer box 11 and the inner box 13 of the box body 10 and on the lower side of the cover 30, respectively, so that the outer box 11 and the inner box ( 13) prevents direct contact with the cover 30 to block heat conduction that may occur due to direct contact between the outer box 11 and the inner box 13 with the cover 30, thereby maintaining the ascon at an appropriate temperature there will be

The ascon warming box 1 includes a box body 10, a cover 30, and a rail-type cover opening and closing device 100.

Hereinafter, with reference to FIGS. 1 to 13, components of an ascon warming box according to an example of the present invention will be described in detail.

The box main body 10 is the main body of the ascon warming box 1 in which the ascon is contained.

The box body 10 may be formed with an open top.

This box body 10 may be formed of an outer box 11 and an inner box 13.

The outer box 11 is a configuration that forms the outer surface of the box body 10 . The outer box 11 may be formed with an open top. Therefore, the inner box 13 to be described later may be formed by being located inside the outer box 11.

The outer box 11 may be formed using a steel material such as a steel plate.

An inner box 13 may be provided inside the outer box 11 . The inner box 13 is formed in a smaller size than the outer box 11, and may be formed of the same material as the outer box 11.

Therefore, since the inner box 13 is formed in a size smaller than the size of the outer box 11, the inner box 13 can be easily installed inside the outer box 11, and the fixing bar 210 and fixing described later When the outer box 11 and the inner box 13 are integrated by the device 220, a separation space is formed between the outer box 11 and the inner box 13, and the outer box 11 and the inner box ( 13) is not interconnected by the fixing device 220 and the fixing bar 210 to prevent heat conduction from the inner box 13 to the outer box 11, as well as the outer box 11 and the inner box A high-temperature insulator 230 and a desiccant are filled or applied in the space between (13), and an insulation board 250 is installed to more effectively block heat conduction to maintain the asphalt contained in the inner box 13 at an appropriate temperature. be able to

A cover 30 may be formed on the upper side of the outer box 11 and the inner box 13 . The cover 30 is formed to cover the upper sides of the outer box 11 and the inner box 13 to open and close the open upper sides of the outer box 11 and the inner box 13 .

The cover 30 may include an upper plate 31 and a lower plate 33.

The box body 10 and the cover 30 are mutually coupled by the rail-type cover opening and closing device 100, and the rail-type cover opening and closing device 100 can allow the cover 30 to open and close the upper side of the box body 10. there is.

The rail-type cover opening and closing device 100 may include a guide part 110, a first cylinder 120, a support part 130, a pressing device 140, and a driving part 160.

The guide unit 110 may include a guide frame 111, a guide roller 113, a guide rail 115, and a plurality of rollers 117.

Guide frame 111 may be formed on both sides of the upper portion of the outer box (11). The guide frame 111 is formed longer than the length of the outer box 11 at the top of both sides of the outer box 11 to form a moving path through which the cover 30 can be moved. Therefore, as the cover 30 is moved to one side along the guide frame 111, the ascon warming box 1 can be opened.

A plurality of guide rollers 113 may be formed on the upper side of the guide frame 111 . The guide roller 113 may be rotatably provided at a predetermined interval on the upper side of the guide frame 111 . When the cover 30 is moved by the chain 161 and the driving motor 163, the guide roller 113 can be moved more easily by the rotation of the roller.

Guide rails 115 may be formed on both sides of the cover 30 . The guide rails 115 may be coupled to both sides of the cover 30 by welding or the like so that the apex portions of the triangular tube face downward.

Guide rail 115 may be seated on the upper side of the plurality of guide rollers (113). That is, when the cover 30 is moved by the driving unit 160, it can be more easily moved from the upper side of the guide frame 111 by the guide rail 115 and the guide roller 113.

A plurality of rollers 117 may be formed between the guide frames 111 formed on both sides of the cover 30 . The plurality of rollers 117 may contact the lower surface of the cover 30 when the cover 30 moves along the guide frame 111 so that the cover 30 can move more easily.

In addition, the plurality of rollers 117 may be formed coupled to the upper side of one end of the box body 10 . That is, when the upper part of the box body 10 is not formed to be open over the entire area, but only a partial area is opened, a plurality of rollers 117 are formed on the unopened upper part of one end of the box body 10 that can be formed.

A plurality of first cylinders 120 may be provided on both sides of the box body 10 . Each of the plurality of first cylinders 120 may have one side coupled to the side of the box body 10 and the other side coupled to the lower side of the guide frame 111 .

Therefore, the guide part 110 can be moved up and down by driving the first cylinder 120, and the cover 30 can be lifted by the guide roller 113 and the guide rail 115 of the guide part 110. As it can be lowered, the first cylinder 120 can be said to have a configuration capable of adjusting the lifting and lowering of the guide unit 110 and the opening and closing of the cover 30 .

In addition, a plurality of first elevating guides 121 may be coupled to both sides of the box body 10 and to the lower side of the guide frame 111 . The plurality of first elevating guides 121 may guide the elevating and descending of the guide frame 111 elevating and descending by the first cylinder 120 . That is, when the guide frame 111 is raised or lowered by the first cylinder 120, the plurality of first raising and lowering guides 121 allow the guide frame 111 to be raised and lowered without twisting, so that the guide frame 111 can be raised and lowered more stably and accurately. The elevating and descending of the guide frame 111 can be made.

Both ends of the support part 130 are coupled to both side surfaces of the box body 10 and may be formed above one end of the box body 10 .

The support part 130 may support the guide frame 111 of the guide part 110 and a drive motor 163 described later may be coupled.

Both ends of the support part 130 are coupled to the pair of second elevating guides 131 coupled to each side of the pair of first cylinders 120 and the pair of second elevating guides 131, respectively. The ∩-shaped support bracket 132 and a pair of side guide rollers 135 and a pair of side guide rollers 135 provided on the inside of the side surfaces of the support bracket 132 to come into contact with the side surface of the guide rail 115 and bending of the support bracket 132 A pair of first fixing blocks 133 and a pair of second fixing blocks 134 coupled to the side of the guide frame 111 at a predetermined distance from the first fixing block 133 formed on the inner side of the unit A pair of first support bars 137 and one side are coupled to one end of the guide frame 111 and the other side is coupled to the first fixing block 133 to support the guide frame 111. It is coupled to the fixing block 133 and the other side is coupled to the second fixing block 134 to include a pair of second support bars 138 supporting the guide frame 111 and the support bracket 132. can

The pair of second elevating and descending guides 131 may be coupled to each side of the pair of first cylinders 120 provided at one end side of the plurality of first cylinders 120 .

The pair of second lifting and lowering guides 131 are coupled to the lower side of the hopper 40 when the hopper 40 is moved up and down by the first cylinder 120, and the support bracket 132 moves up and down together. can guide you.

Therefore, the support bracket 132 can be moved up and down without distortion by the second elevating guide 131, so that the support bracket 132 can be moved up and down more stably and accurately.

The support bracket 132 may be formed in a ∩ shape. Therefore, both ends of the support bracket 132 may be coupled to each of the above-described second elevating and descending guides 131, and the middle portion may be coupled to the lower side of the hopper 40 to be described later.

In addition, both ends of the support bracket 132 may be coupled to each of the pair of second elevating and descending guides 131 . The driving unit 160 may be coupled to the middle portion of the support bracket 132, and a pair of first fixing blocks 133 to be described below may be respectively provided on the inner surfaces of the bent portions on both sides.

A pair of first fixing blocks 133 may be provided in the support bracket 132 . The first fixing block 133 is coupled to the first support bar 137 to be described later so that the first support bar 137 is fixed to a predetermined position by the first fixing block 133, and the first support bar 137 As a result, the support of the guide frame 111 can be made more robust.

One side of the first support bar 137 is coupled to one end of the guide frame 111 and the other side is coupled to the first fixing block 133 to be fixed.

The first support bar 137 is the guide frame 111 by the weight of the cover 30 when the guide frame 111 is bent by its own weight or the cover 30 is moved to the upper side of the guide frame 111 It is possible to support the guide frame 111 so that the cover 30 moves more stably by preventing bending from occurring.

The first support bar 137 may be formed in a rod shape or bar shape made of steel, and may be formed of a wire or a steel wire as needed.

A second fixing block 134 may be coupled to the side of the guide frame 111 . The second fixing block 134 may be formed spaced apart from the first fixing block 133 by a predetermined distance.

The second support bar 138, which will be described later, is coupled to the second fixing block 134 so that the second support bar 138 is fixed to a predetermined position by the second fixing block 134 so that the second support bar 138 As a result, the guide frame 111 and the support bracket 132 can be supported more firmly.

The second support bar 138 may have one side coupled to the first fixing block 133 and the other side coupled to the second fixing block 134 to be fixed.

A pair of side guide rollers 135 are coupled to inner surfaces of both sides of the support bracket 132 and may be installed to come into contact with the side surfaces of the guide rail 115 . Accordingly, the side guide roller 135 guides the guide rail 115 from the side of the guide rail 115 so that the cover 30 can be moved to one side more easily.

A plurality of pressing devices 140 may be provided in the guide frame 111 formed on both sides of the box body 10 .

The pressing device 140 may include a L-shaped pressing clamp 141 coupled to the guide frame 111 and a pressing member 143 provided at a portion where the pressing clamp 141 contacts the cover 30. .

The pressure clamp 141 may be coupled to the lower side of the guide frame 111 by welding or the like.

The pressure clamp 141 may be formed in an L shape. The pressure clamp 141 is moved up and down together when the guide frame 111 is moved up and down by the first cylinder 120, so that the upper side of the cover 30 is pressed or the pressure is released.

Accordingly, the box body 10 can be sealed more reliably by allowing the cover 30 to come into close contact with the upper side of the box body 10 .

A pressing member 143 may be provided in the pressing clamp 141 . The pressing member 143 may be provided at a portion where the pressing clamp 141 contacts the cover 30 . The pressing member 143 may come into contact with the upper surface of the cover 30 when the pressing clamp 141 is pressed toward the cover 30 . At this time, the pressing member 143 presses the upper side of the cover 30 to press the cover 30 until the packing material 241, which will be described later, reaches its maximum contraction point. Accordingly, the lid 30 can seal the box body 10 more strongly.

A driving motor 163 may be coupled to a lower side of the support part 130 . The drive motor 163 may be coupled to the middle portion of the support bracket 132 by welding or the like.

The drive unit 160 is coupled to one side of the drive motor 163 and the drive motor 163 coupled to the middle portion of the chain 161 formed on the upper surface of the cover 30 and the support unit 130, but to the chain 161 It may be configured to include a driving gear 165 formed to mesh.

Chain 161 may be provided on the upper surface of the cover (30). The chain 161 is meshed with a driving gear 165 to be described later, so that the cover 30 is moved in the front and rear directions of the ascon warming box 1 by driving the driving motor 163 that drives the driving gear 165. can

A driving motor 163 may be coupled to an upper side of the chain 161 while being a middle portion of the support part 130 . The driving motor 163 may use a general motor or a hydraulic or hydraulic power unit driven by hydraulic pressure or pneumatic pressure.

The drive motor 163 may rotate the drive gear 165 coupled to one side so that the chain 161 meshed with the drive gear 165 moves to one side so that the cover 30 is moved.

A driving gear 165 may be coupled to one side of the driving motor 163 . The drive gear 165 is formed to mesh with the chain 161 and is rotated by the drive of the drive motor 165 to move the cover 30 .

The upper side of the pressure clamp 141 may be formed by combining the hopper 40 by welding or the like.

As the hopper 40 is coupled to the upper side of the pressure clamp 141, the guide frame 111, the pressure clamp 141, and the hopper 40 are integrated, and thus the guide frame 111 is driven by the first cylinder 120. ), the pressure clamp 141, and the hopper 40 may all move up and down together.

The hopper 40 may be formed in a trapezoidal shape in which the width increases from the lower side to the upper side.

Since the hopper 40 has a wide upper width and a narrow lower width, the asphalt concrete discharged from the asphalt concrete manufacturing apparatus can be easily guided to the inner box 13 through the hopper 40 and loaded. That is, the hopper 40 can exert the same effect as a funnel for inducing asphalt concrete to the inside of the inner box 13. Therefore, it is possible to more easily load the asphalt into the inside of the ascon warming box (1).

The hopper 40 may be formed spaced apart from the upper side of the cover 30 at a predetermined interval. Therefore, the cover 30 is raised through the separation space formed between the hopper 40 and the cover 30 so that a space in which the cover 30 can move can be formed.

Hereinafter, a process of opening and driving the cover 30 by the rail-type cover opening and closing device 100 will be described.

The rail-type cover opening and closing device 100 is a pressure clamp 141 of a pressure device 140 that presses the upper side of the cover 30 as the guide frame 111 is raised upward by the tension drive of the first cylinder 120. ) is raised together and separated from the upper surface of the cover 30, so that the pressing force acting on the cover 30 can be released.

After that, the first cylinder 120 is continuously driven in tension so that the guide frame 111 supports the guide rails 115 formed on both sides of the cover 30 and lifts them upwards, so that the cover 30 is raised and the box box 30 is lifted. The upper part of the box body 10 may be opened by being spaced apart from the upper part of the body 10 .

Accordingly, the cover 30 spaced upward from the box body 10 is driven by the driving motor 163 that drives the drive gear 165 meshed with the chain 161 provided on the upper surface of the cover 30. It may move in one direction along the guide frame 111 .

Therefore, as the cover 30 is moved along the guide frame 111, the upper part of the box body 10 is completely opened, and the asphalt concrete shipped from the asphalt concrete manufacturing apparatus can be loaded inside the inner box 13.

Hereinafter, a process of closing and driving the cover 30 by the rail-type cover opening and closing device 100 will be described.

In the rail-type cover opening and closing device 100, the cover 30 may be moved in the other direction through the driving of the driving motor 163 when the asphalt concrete is completed inside the inner box 13.

When the cover 30 is moved in the other direction and reaches the upper side of the box body 10, the first cylinder 120 contracts and drives to lower the guide frame 111, so that the cover 30 is lowered and the box body 10 ) can be closed on the upper side.

After that, the first cylinder 120 is continuously contracted and driven so that the pressure clamp 141 of the pressure device 140 comes into close contact with the upper surface of the cover 30 to pressurize the cover 30, thereby removing the cover 30 from the outer box body. It can be made to adhere to the upper side of (10).

Therefore, the pressing device 140 presses the upper side of the cover 30 by the closing driving process of the rail-type cover opening and closing device 100 described above, so that the cover 30 strongly seals the upper side of the box body 10. can

A plurality of fixing devices 220 may be installed between the outer box 11 and the inner box 13 of the box body 10 and between the upper plate 31 and the lower plate 33 of the cover 30 .

A plurality of fixtures 220 installed between the outer box 11 and the inner box 13 penetrate the outer box 11 from the outside of the outer box 11 and then have one end attached to the inner box 13. It is fastened to fix the outer box 11 to the outside of the inner box 13.

Therefore, the outer box 11 can be supported and fixed from the outside of the inner box 13 by the plurality of fixing devices 220 .

A separation space is formed between the outer box 11 and the inner box 13 by the plurality of fixing devices 220 .

In addition, the plurality of fixing devices 220 installed between the upper plate 31 and the lower plate 33 of the cover 30 fix the lower plate 33 of the cover 30 to the upper plate 31 while holding the cover 30 A separation space may be formed between the upper plate 31 and the lower plate 33 of ).

The plurality of fixing devices 220 installed inside the cover 30 pass through the lower plate 33 from the outside of the lower plate 33 and then one end is fastened to the upper plate 31 so that the lower plate 33 is the upper plate. (31) to be fixed.

That is, a plurality of fixing devices 220 for coupling and fixing the outer box 11 and the inner box 13 and a plurality of fixing devices 220 for coupling and fixing the upper plate 31 and the lower plate 33 of the cover 30 ) A separation space is formed between the outer box 11 and the inner box 13 and between the upper plate 31 and the lower plate 33 of the cover 30.

Therefore, by forming a separation space between the outer box 11 and the inner box 13 and between the upper plate 31 and the lower plate 33 of the cover 30, the asphalt concrete contained inside the inner box 13 Heat can be prevented from being conducted to the outer box 11 and the top plate 31 of the cover 30, between the outer box 11 and the inner box 13 and the top plate 31 of the cover 30 The inside of the spaced space formed between the lower plate 33 is filled with a high-temperature insulator 230 to be described later to prevent the heat of the ascon contained in the ascon warming box 1 from being conducted to the outside, thereby maintaining the temperature of the ascon more efficiently. there will be

In addition, the plurality of fixing devices 220 fix the outer box 11 and the inner box by fixing the lower plate 33 of the cover 30 and the outer box 11 to a plurality of fixing bars 210 having almost no thermal conductivity, which will be described later. (13) is blocked from being connected to each other by the plurality of fixing devices 220, and the top plate 31 and the bottom plate 33 of the cover 30 are blocked from being connected to each other by the plurality of fixing devices 220. By doing so, the heat of the ascon contained inside the inner box 13 is conducted to the outer box 11 and the upper plate 31 of the cover 30 to prevent the temperature of the ascon contained in the ascon warming box 1 from decreasing be able to

A plurality of fixing brackets 200 for fixing a plurality of fixing bars 210 to be described below may be coupled to the outer surface of the inner box 13 and the inner surface of the upper plate 31 of the cover 30. That is, the plurality of fixing brackets 200 are provided to block the above-described plurality of fixing devices 220 from being directly connected to the inner box 13 and the upper plate 31 of the cover 30. It is formed on the outer surface of the inner box 13 and the inner surface of the top plate 31 of the cover 30 in order to fix and couple the fixing bar 210.

The plurality of fixing brackets 200 may be formed in a U-shape with a central portion concave inward. Therefore, a fixing bar 210 to be described below may be fitted into the concavely formed central portion.

The plurality of fixing brackets 200 are formed of steel, and one surface may be coupled to the outer surface of the inner box 13 or the inner side of the upper plate 31 of the cover 30 by a coupling means such as welding.

A plurality of fixing bars 210 may be respectively fitted to the plurality of fixing brackets 200 . The plurality of fixing bars 210 are fitted into the plurality of fixing brackets 200, respectively, and at the same time, one end of the plurality of fixing devices 220 is respectively fastened. That is, the plurality of fixing bars 210 are fixed to the plurality of fixing brackets 200, respectively, so that the plurality of fixing devices 220 directly contact the inner box 13 and the top plate 31 of the cover 30. It is possible to prevent the temperature of the asphalt concrete from lowering by being blocked and the heat of the asphalt concrete contained in the ascon warming box 1 is conducted to the outside through the plurality of fixing devices 220.

The fixing bar 210 may use wood or MC nylon with little thermal conductivity.

That is, by providing a fixing bar 210 having little thermal conductivity between the plurality of fixing brackets 200 and the plurality of fixing devices 220, the inner box 13 is contained by the plurality of fixing devices 220. It is possible to block the heat of the asphalt concrete from being conducted to the outer box 11 or to the upper plate 31 of the cover 30.

Therefore, the heat of the asphalt concrete contained inside the inner box 13 by the plurality of fixing bars 210 is conducted to the outside through the plurality of fixing devices 220, thereby preventing the temperature of the asphalt concrete from decreasing.

For example, when the plurality of fixing devices 220 are directly fastened to the inner box 13, the row of asphalt concrete accommodated in the inner box 13 passes through the inner box 13 and the plurality of fixing devices 220 to the outer box 11 ) and the upper plate 31 of the cover 30, which can be a factor in reducing the temperature of the ascon contained in the ascon warming box 1 in a short time.

Therefore, in order to prevent this, the present invention has a plurality of fixing bars 210 having little thermal conductivity so that the plurality of fixing devices 220 do not directly contact the inner box 13 and the upper plate 31 of the cover 30. By fixing one end of each of the plurality of fixing devices 220, the outer box 11 is stably fixed to the outside of the inner box 13, as well as between the outer box 11 and the inner box 13. A separation space capable of filling the high-temperature insulator 230 to be described later can be formed.

A high-temperature insulator 230 may be filled in a space between the outer box 11 and the inner box 13 and between the upper plate 31 and the lower plate 33 of the cover 30 . The high-temperature insulator 230 is filled in the space between the outer box 11 and the inner box 13 and between the upper plate 31 and the lower plate 33 of the cover 30 and accommodated in the ascon insulating box 1 It can prevent the heat of ascon from being conducted to the outside.

The high-temperature insulator 230 includes ceramic wool, mineral wool, cellulose, ceramic paper, urethane, cerak wool, and biocerak wool. ) and rock wool (rock wool) can be selected and used.

An insulating board 250 may be further provided on each of the inner surface of the outer box 11 and the upper surface of the lower plate 33 of the cover 30 . The insulation board 250 may use ceramic and silica insulation boards such as a ceramic board, a ceramic cloth, a silica board, and a silica cloth.

Since the insulation board 250 is provided on the inner side of the outer box 11 and the upper side of the lower plate 33 of the cover 30, respectively, the heat of the asphalt received in the ascon warming box 1 is transferred to the outer box 11 and the cover ( 30), it is possible to more effectively block conduction to the upper plate 31, and the outside air of the outer box 11 and the upper plate 31 of the cover 30 is separated from the outer box 11 and the inner box 13. It is possible to more effectively block conduction into the space between the gap and the space between the upper plate 31 and the lower plate 33 of the cover 30 . That is, as the thermal insulation effect is made complex by the high-temperature insulator 230 and the insulation board 250, it is possible to more effectively prevent a decrease in the temperature of the asphalt concrete contained in the inner box 13.

An insulating resin 240 may be provided on the upper side of the separation space between the outer box 11 and the inner box 13 . The insulating resin 240 is provided to close the upper side of the separation space between the outer box 11 and the inner box 13. The insulating resin 240 prevents direct contact between the outer box 11, the inner box 13, and the cover 30, so that heat conduction is more effectively blocked, thereby preventing a decrease in the temperature of the asphalt concrete.

In addition, the cover 30 may further include a heat insulating resin 240 below the lower plate 33 or the lower plate 33 of the cover 30 may be formed of the heat insulating resin 240 . Heat insulation provided on the upper side of the outer box 11 and the inner box 13 by providing a heat insulating resin 240 on the lower side of the cover 30 or forming the lower plate 33 of the cover 30 with the heat insulating resin 240 The outer box 11 and the inner box are contacted with the resin 240 and the insulating resin 240 provided on the lower side of the cover 30 or in contact with the lower plate 33 of the cover 30 formed of the insulating resin 240. Since the upper side of the cover 30 is not in direct contact with the upper side of the 13, it is possible to more effectively prevent the heat of the asphalt concrete from being conducted to the outside through the cover 30.

As the heat insulating resin 240, a bakelite plate or an MC nylon plate having excellent heat insulating effect may be used.

A packing material 241 is provided on the upper side of the insulating resin 240 provided on the upper side of the outer box 11 and the inner box 13 and on the lower side of the insulating resin 240 provided on the lower side of the cover 30, respectively. The packing material 241 may be provided only on the lower edge of the insulating resin 240 provided on the lower side of the cover 30 or the lower edge of the lower plate 33 of the cover 30 formed of the insulating resin 240. there is.

The packing material 241 packs the outer box 11 and the upper side of the inner box 13 and the contact surface of the cover 30 so that the heat of the asphalt concrete loaded inside the ascon warming box 1 is discharged to the outside. can be effectively prevented.

For the packing material 241, foamed silicon may be used, and any material may be used as long as it has low thermal conductivity and high heat resistance.

A desiccant is applied to the inner surface of the outer box 11, the outer surface of the inner box 13, the plurality of fixing brackets 200 and the plurality of fixing bars 210, or the upper plate 31 and the lower plate 33 of the cover 30 ) The desiccant may also be applied to the fixing bracket 200 and the fixing bar 210 provided on the inner surface of the upper plate 31 and the inner surface of the upper plate 31. The desiccant absorbs moisture generated by the temperature difference between the outside air and the asphalt concrete in the space between the outer box 11 and the inner box 13 and the space between the upper plate 31 and the lower plate 33 of the cover 30. prevent occurrence.

The desiccant may be applied before filling the high-temperature insulator 230 in the separation space between the inner box 13 of the outer box 11 and the separation space formed inside the cover 30 .

In this way, by applying a desiccant to the inner surface of the outer box 11, the outer surface of the inner box 13, the fixing bracket 200, and the fixing bar 210, the separation between the outer box 11 and the inner box 13 Heat is prevented from being conducted from the inner box 13 to the outer box 11 through moisture generated in the space, and the inner surface of the upper plate 31 and the lower plate 33 of the cover 30 and the upper plate 31 ) By applying a desiccant to the fixing bracket 200 and the fixing bar 210 provided on the inner surface of the cover, through the moisture generated in the spaced space between the upper plate 31 and the lower plate 33 of the cover 30 ( 30) to block the conduction of heat from the lower plate 33 to the upper plate 31.

In addition, the outer box 11, the inner box 13, the upper plate 31 and the lower plate 33 of the cover 30, a plurality of fixing brackets 200, and a plurality of fixing bars 210 are corroded by moisture. It is possible to secure the durability of the ascon warming box (1) by preventing this.

The desiccant is added with 1 to 10 parts by weight of styrene-butadiene-styrene (SBS) based on 100 parts by weight of insulating oil and heated and stirred to obtain a first mixture;

Adding 30 to 70 parts by weight of an asphalt compound based on 100 parts by weight of the first mixture and heating and stirring to obtain a second mixture;

Adding 1 to 5 parts by weight of polyaniline (PANI) based on 100 parts by weight of the second mixture and heating and stirring to obtain a third mixture;

Adding 6 to 12 parts by weight of zeolite based on 100 parts by weight of the third mixture and heating and stirring to obtain a fourth mixture;

Obtaining a fifth mixture by adding 1 to 5 parts by weight of polybutene and 0.2 to 0.8 parts by weight of polymethyl methacrylate (PMMA) to 100 parts by weight of the fourth mixture, followed by stirring and natural cooling;

Adding 30 to 70 parts by weight of xylene based on 100 parts by weight of the fifth mixture, and adding 10 to 40 parts by weight of solvent No. 3 based on 100 parts by weight of the fifth mixture and dissolving to obtain a sixth mixture can be produced through

An outlet 300 communicating the outer box 11 and the inner box 13 may be formed on the lower side of one side of the outer box 11 and the lower side of the inner box 13 . The outlet 300 is a passage through which the asphalt concrete loaded inside the asphalt concrete warming box 1 is discharged to the outside.

A heat insulating resin 240 may be provided around and outside the outlet 300 . Therefore, it is possible to prevent direct contact between the outer surface of the outlet 300 made of a material having high thermal conductivity and the opening/closing door 310, which will be described later, to prevent the heat of the asphalt concrete from being discharged to the outside through the outlet 300 and the opening/closing door 310. can

An opening/closing door 310 having the same structure as the cover 30 may be provided at the outlet 300 . The opening and closing door 310 may be rotatably coupled to the upper side of the outlet 300 and to the outer side of the outer box 11 by a hinge.

In addition, the opening and closing door 310 can automatically open and close the outlet 300 by the opening and closing cylinder 312 .

One side of the opening/closing cylinder 312 is coupled to the opening/closing door 310 and the other side may be coupled to the outer box 11 .

Therefore, the opening and closing door 310 closes or opens the outlet 300 by the operation of the opening and closing cylinder 312, so that the opening and closing door 310 can open and close the outlet 300.

The opening and closing cylinder 312 may use a hydraulic cylinder or a pneumatic cylinder.

The opening/closing door 310 may be provided with a heat insulating resin 240 around an inner surface in contact with the outlet 300, or may be provided with a insulating resin 240 on an inner surface of the opening/closing door 310 in contact with the outlet 300. .

Therefore, since the insulating resin 240 is provided at the outlet 300 and the door 310, respectively, the outlet 300 and the door 310 do not come into direct contact, preventing heat conduction from the outlet 300 to the door 310. can do.

An auxiliary outlet and an auxiliary opening/closing door 320 may be further formed in the opening/closing door 310 . The auxiliary outlet and the auxiliary opening and closing door 320 is formed to a size smaller than the size of the opening and closing door 310 and is intended to be used when discharging an amount of asphalt concrete smaller than the amount of asphalt discharged by the opening and closing door 310.

The auxiliary outlet may be formed in the same shape as the outlet 300, and the auxiliary opening/closing door 320 may be formed in the same shape as the opening/closing door 310.

The auxiliary opening and closing cylinder 322 is provided in the auxiliary opening and closing door 320 to control the opening and closing of the auxiliary opening and closing door 320 . By forming the auxiliary outlet and the auxiliary opening and closing door 320 in the opening and closing door 310, when a small amount of ascon is discharged from the ascon warming box 1, less outside air flows into the ascon warming box 1 by the opening and closing door 310 By doing so, it is possible to prevent a decrease in the temperature of asphalt concrete.

The auxiliary opening and closing cylinder 322 may use a hydraulic cylinder or a pneumatic cylinder in the same way as the opening and closing cylinder 312 described above.

In addition, in addition to opening and closing by the auxiliary opening and closing cylinder 322, the auxiliary opening and closing door 320 may be provided with an opening and closing device capable of opening and closing manually.

The opening/closing operation device is formed in a locking structure in which an operator can manually open and close the auxiliary door, so that the auxiliary door can be easily opened and closed without driving the auxiliary opening/closing cylinder 322 .

In addition, the auxiliary outlet and the auxiliary opening and closing door 320 may be provided with a heat insulating resin 240 around the inner surface of the auxiliary outlet and the auxiliary opening and closing door 320 in the same way as the outlet 300 and the opening and closing door 310.

That is, by providing a heat insulating resin 240 around the inner surface of the auxiliary opening and closing door 320 in contact with the auxiliary outlet, direct contact between the auxiliary outlet and the auxiliary opening and closing door 320 is prevented, so that the auxiliary outlet and the auxiliary opening and closing door 320 As a result, it is possible to prevent the temperature of the asphalt concrete from being conducted to the outside.

In addition, a packing material 241 is provided on one side of the insulating resin 240 provided around the circumference of the outlet 300 and the inner surface of the opening and closing door 310 and the circumference of the auxiliary outlet and the inner surface of the auxiliary opening and closing door 320. It may be, the packing material 241 may be provided only on the edge of the insulating resin 240 provided around the inner surface of the inner surface of the opening and closing door 310 and the inner surface of the auxiliary opening and closing door 320.

The packing material 241 packs the contact surfaces of the outlet 300 and the opening/closing door 310 and the auxiliary outlet and the auxiliary opening/closing door 320 so that the heat of the asphalt concrete loaded inside the ascon warming box 1 is discharged to the outside. can be effectively prevented.

Ascon warming box (1) is loaded on a general truck, not a dump truck, and the ascon warming box (1) is installed on the lower side of the outer box (11) of the ascon warming box (1) in case the asphalt is transported to the construction site and discharged. A supporting plate 500 may be further provided.

At this time, one end of the support plate 500 is hinged with one end of the lower part of the outer box 11 of the ascon warming box 1, and the ascon warming box 1 is raised or raised by an elevating member 600 described later. When descending, the other side of the ascon warming box 1 can be moved up and down as the ascon warming box 1 is rotated based on the hinge coupling the outer box 11 and the support plate 500.

An elevating member 600 may be provided inside the separation space formed between the support plate 500 and the outer box 11 .

The lifting member 600 is formed of a hydraulic cylinder and a pneumatic cylinder and is provided to mutually couple the support plate 500 and the outer box 11, and the lifting member 600 is driven by tension and contraction of the hydraulic cylinder and the pneumatic cylinder. The other side of the ascon warming box 1 can be raised and lowered.

Therefore, as the other side of the asphalt concrete warming box 1 is raised or lowered through the driving of the lifting member 600, the asphalt concrete loaded in the asphalt concrete warming box 1 can be easily discharged through the discharge port 300.

In addition, as another method of discharging the ascon warming box 1 by loading it on a general truck rather than a dump truck and transporting it to a construction site, there is a method of discharging by a screw 400 formed inside the inner box 13.

To this end, a screw 400 may be formed in the longitudinal direction toward the outlet 300 at the inner lower central portion of the inner box 13 .

The screw 400 may be formed rotatably in the longitudinal direction from one end of the inner side of the inner box 13 toward the outlet 300 .

The screw 400 may discharge the asphalt concrete loaded inside the inner box 13 to the outside through the discharge port 300 by rotation.

That is, when the ascon warming box 1 is mounted on a general truck other than a dump truck, even when the lifting member 600 is not provided at the bottom of the ascon warming box 1, it is provided inside the inner box 13 By moving the asphalt concrete loaded inside the inner box 13 to the outlet 300 by the rotation of the screw 400, it is possible to easily discharge the asphalt concrete to the outside.

In addition, a weight measurement sensor may be formed on the outer lower portion of the outer box 11. The weight measurement sensor can determine the loading amount of the asphalt concrete by the weight measurement value that varies depending on the loading amount of the asphalt concrete by measuring the overall weight of the ascon warming box (1).

The weighing sensor is a generally used load cell, or a hydraulic sensor and a weight sensor can be used.

Referring to FIGS. 14 to 16 , an ascon warming box according to an example of the present invention may be mounted on a loading part of a vehicle such as a truck. That is, in order to move the ascon warming box 1 to the construction site, the ascon warming box 1 can be mounted on a truck using a lifting device or a crane, and then fixed with a fixing device.

Therefore, as the asphalt concrete warming box 1 is mounted and fixed on a truck, it is possible to transport the asphalt concrete from the asphalt concrete manufacturing plant to the construction site.

When the ascon warming box 1 of the present invention is mounted on a dump truck and used, the dump truck It is possible to facilitate the discharge of asphalt concrete by the lifting device of the.

In addition, when the ascon warming box (1) of the present invention is mounted on a general truck rather than a dump truck, the ascon warming box (1) is further equipped with a support plate 500 and an elevating member 600 (1). ), or by mounting the ascon warming box (1) in which the screw 400 is further installed inside the ascon warming box (1), it is possible to facilitate the discharge of the asphalt concrete.

The present invention is not limited to the above embodiments, and the scope of application is diverse, and various modifications and implementations are possible without departing from the gist of the present invention claimed in the claims.

[Description of code]

1 : Ascon warming box

10: box body

11: outer box 13: inner box

30: cover 31: top plate

33: lower plate

40: Hopper

100: rail type cover opening and closing device

110: guide part 111: guide frame

113: guide roller 115: guide rail

117: roller

120: first cylinder 121: first lifting and lowering guide

130: support

131: second lifting guide 132: support bracket

133: first fixed block 134: second fixed block

135: side guide roller 137: first support bar

138: second support bar

140: pressurizing device 141: pressurizing clamp

143: pressing member

160: driving unit 161: chain

163: drive motor 165: drive gear

200: fixed bracket 210: fixed bar

220: fixture 230: high-temperature insulation

240: insulation resin 250: insulation board

300: outlet

310: opening door 312: opening and closing cylinder

320: auxiliary opening and closing door 322: auxiliary opening and closing cylinder

400: screw

500: support plate

600: lifting member

Claims (26)

1. In the ascon warming box for receiving the ascon and maintaining the proper temperature of the ascon,

   a box body 10 with an open upper side;

   a cover 30 covering the open upper side of the box body 10;

   A rail-type cover opening and closing device 100 for opening and closing the cover 30 in the box body 10;

   The box body 10,

   It is formed of an outer box 11 with an open top and an inner box 13 with an open top and provided on the inside of the outer box 11 to have a smaller size than the outer box 11,

   A plurality of fixing devices 220 are provided between the outer box 11 and the inner box 13,

   A separation space is formed between the outer box 11 and the inner box 13 by fixing the outer box 11 to the outside of the inner box 13 by the fixing device 220,

   A high-temperature insulating material 230 is filled in the space formed between the outer box 11 and the inner box 13,

   A desiccant is applied to the spaced space between the outer box 11 and the inner box 13 of the box body 10, and the temperature difference between the outside air and the asphalt concrete in the spaced space between the outer box 11 and the inner box 13 Ascon insulation box, characterized in that to prevent the generation of moisture by.
2. The method of claim 1,

   The rail-type cover opening and closing device 100,

   Guide parts 110 provided on both sides of the box body 10 and both sides of the cover 30 to guide the movement of the cover 30;

   a plurality of first cylinders 120 provided on both sides of the box body 10 to move the cover 30 and the guide part 110 up and down;

   a support part 130 having both ends coupled to both side surfaces of the box body 10 and formed on an upper side of one end of the box body 10;

   a plurality of pressing devices 140 coupled to the guide part 110 and pressing the cover 30 toward the box body 10;

   Ascon warming box, characterized in that it comprises a; driving part 160 provided on the upper surface of the cover 30 and the support part 130 and moving the cover 30.
3. The method of claim 2,

   A plurality of first raising and lowering guides 121 for guiding the movement of the guide part 110 that is raised and lowered by the first cylinder 120 are further provided,

   The plurality of first elevating and descending guides 121 are provided on both sides of the box body 10 and on the lower side of the guide part 110, characterized in that the ascon warming box.
4. The method of claim 3,

   The guide part 110,

   Guide frames 111 provided on both upper portions of the box body 10 and formed along the direction in which the cover 30 moves;

   A plurality of guide rollers 113 rotatably provided at regular intervals on the upper side of the guide frame 111;

   Ascon warming box, characterized in that it includes; guide rails 115 provided on both sides of the cover 30 and seated on the plurality of guide rollers 113.
5. The method of claim 4,

   The pressurization device 140,

   Ascon insulation, characterized in that it includes a L-shaped pressing clamp 141 coupled to the guide frame 111 and a pressing member 143 provided at a portion where the pressing clamp 141 contacts the cover 30 box.
6. The method of claim 5,

   The upper side of the pressurizing device 140 is provided with a hopper 40 formed in a trapezoidal shape whose width increases from the bottom to the top,

   The hopper 40 is coupled to the upper end of the pressure clamp 141 and ascends and descends together when the guide part 110 ascends and descends by the first cylinder 120.
7. The method of claim 4,

   On one side of the guide frame 111, a plurality of rollers 117 rotating by the movement of the cover 30 are provided between the guide frames 111 on both sides.
8. The method of claim 4,

   The support part 130,

   a pair of second elevating and descending guides 131 each coupled to a side surface of a pair of first cylinders 120 provided at one end side of the box body 10 among the plurality of first cylinders 120;

   a ∩-shaped support bracket 132 having both ends coupled to the pair of second elevating and descending guides 131;

   A pair of side guide rollers 135 provided on the inside of the side of the support bracket 132 and provided so that the side of the guide rail 115 comes into contact. Ascon insulation box, characterized in that it includes.
9. The method of claim 8,

   The support part 130,

   a pair of first fixing blocks 133 each formed on the inner surface of the bent portion of the support bracket 132;

   a pair of second fixing blocks 134 spaced apart from the first fixing block 133 and coupled to the side of the guide frame 111;

   A pair of first support bars 137 having one side coupled to one end of the guide frame 111 and the other side coupled to the first fixing block 133 to support the guide frame 111;

   A pair of second support bars 138 having one side coupled to the first fixing block 133 and the other side coupled to the second fixing block 134 to support the guide frame 111 and the support bracket 132 Ascon warming box, characterized in that it further comprises;
10. The method of claim 2,

    The drive unit 160,

    a chain 161 provided on an upper surface of the cover 30;

    A drive motor 163 coupled to the middle portion of the support part 130;

    Ascon warming box characterized in that it comprises a; drive gear 165 coupled to the drive motor 163 and formed to mesh with the chain 161.
11. The method of claim 1,

    The cover 30,

    It is formed of an upper plate 31 and a lower plate 33,

    A plurality of fixing devices 220 are provided between the upper plate 31 and the lower plate 33,

    A separation space is formed between the upper plate 31 and the lower plate 33 by the fixing device 220,

    Ascon insulation box, characterized in that the high-temperature insulator 230 is filled in the space formed between the upper plate 31 and the lower plate 33 of the cover 30.
12. The method of claim 11,

    A plurality of fixing brackets 200 are formed on the outer surface of the inner box 13 of the box body 10 and the inner surface of the upper plate 31 of the cover 30, respectively.

    A plurality of fixing bars 210 are fitted to the fixing bracket 200,

    One side of the plurality of fixing devices 220 is coupled to the plurality of fixing bars 210 so that the plurality of fixing devices 220 are attached to the outer surface of the inner box 13 of the box body 10 and the cover 30. Ascon insulation box, characterized in that contact with the inner surface of the upper plate 31 is blocked.
13. The method of claim 12,

    Ascon warming box, characterized in that a desiccant is applied to the space between the upper plate 31 and the lower plate 33 of the cover 30, the plurality of fixing brackets 200 and the plurality of fixing bars 210 .
14. The method of claim 12,

    The fixing bar 210 is an ascon warming box, characterized in that formed of wood or MC nylon.
15. The method of claim 1,

    Ascon warming box, characterized in that the upper side of the separation space between the outer box 11 and the inner box 13 of the box body 10 is provided with a heat insulating resin 240 and finished.
16. The method of claim 11,

    The cover 30 is provided with a heat insulating resin 240 on the lower side of the lower plate 33 or the lower plate 33 is formed of a heat insulating resin 240. Ascon warming box.
17. The method of claim 16

    Characterized in that the packing material 241 is provided at the lower edge of the insulating resin 240 provided on the lower side of the cover 30 or the lower edge of the lower plate 33 of the cover 30 formed of the insulating resin 240 Ascon thermal insulation box.
18. The method of claim 11,

    Ascon insulation box, characterized in that the insulation board 250 is provided on the inner surface of the outer box 11 and the upper surface of the lower plate 33 of the cover 30.
19. The method of claim 1,

    An outlet 300 communicating between the outer box 11 and the inner box 13 is formed on the lower side of one side of the outer box 11 and the lower side of one side of the inner box 13,

    On the upper side of the outlet 300, an opening and closing door 310 for opening and closing the outlet 300 is rotatably formed by a hinge,

    Ascon warming box, characterized in that the opening and closing door 310 is controlled by the opening and closing cylinder 312.
20. The method of claim 19

    Ascon insulation box, characterized in that the insulating resin 240 is provided around the inner surface of the opening and closing door 310 in contact with the outlet 300.
21. The method of any one of claims 15 to 17 and 20,

    The insulating resin 240 is an ascon warming box, characterized in that formed of a bakelite plate or an MC nylon plate.
22. The method of claim 20

    Ascon insulation box, characterized in that the packing material 241 is provided at the edge of the insulating resin 240 provided around the inner surface of the opening and closing door 310.
23. The method of claim 19

    A screw 400 is formed rotatably in the longitudinal direction toward the outlet 300 at the inner lower central portion of the inner box 13,

    Ascon warming box, characterized in that the ascon loaded inside the inner box (13) is moved in the direction of the outlet (300) by the rotation of the screw (400).
24. The method of claim 19

    In the opening and closing door 310,

    Ascon insulation box, characterized in that the auxiliary outlet and the auxiliary opening and closing door 320 of a size smaller than the size of the opening and closing door 310 are formed.
25. The method of claim 1,

    On the lower side of the outer box 11,

    A support plate 500 supporting the outer box 11 is provided,

    Ascon warming box, characterized in that an elevating member 600 is provided between the outer box 11 and the support plate 500.
26. The method of claim 1 or claim 13,

    The desiccant is

    Adding 1 to 10 parts by weight of styrene-butadiene-styrene (SBS) based on 100 parts by weight of insulating oil and heating and stirring to obtain a first mixture;

    obtaining a second mixture by adding 30 to 70 parts by weight of an asphalt compound based on 100 parts by weight of the first mixture and heating and stirring;

    obtaining a third mixture by adding 1 to 5 parts by weight of polyaniline (PANI) to 100 parts by weight of the second mixture and heating and stirring;

    obtaining a fourth mixture by adding 6 to 12 parts by weight of zeolite based on 100 parts by weight of the third mixture and heating and stirring;

    Obtaining a fifth mixture by adding 1 to 5 parts by weight of polybutene and 0.2 to 0.8 parts by weight of polymethyl methacrylate (PMMA) to 100 parts by weight of the fourth mixture, followed by stirring and natural cooling;

    30 to 70 parts by weight of xylene is added to 100 parts by weight of the fifth mixture, and 10 to 40 parts by weight of solvent No. 3 is added to 100 parts by weight of the fifth mixture and dissolved to obtain a sixth mixture. Step; Ascon insulation box, characterized in that manufactured through.

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