KR102276556B1 - Briquetting equipment using agricultural waste - Google Patents

Abstract

The present invention relates to an eco-friendly solid fuel hole pellet manufacturing apparatus using agricultural waste, a lower driving frame having a built-in rotating device, an input device for inputting a certain amount of agricultural waste, and a lifting and lowering operation for manufacturing an eco-friendly solid fuel hole bullet A frame, a hydraulic device for elevating the elevating frame, a conveyor for transferring the molded eco-friendly solid fuel hole bullet, and the eco-friendly solid fuel mounted on the rear portion of the elevating frame and molded when the elevating frame is lowered a frame part including a solid fuel hole bullet discharge member for pushing the hole bullet toward the conveyor; a molding unit rotatably coupled to the upper portion of the lower driving frame and configured to be molded into an eco-friendly solid fuel hole coal using agricultural wastes supplied from the input device; and a manufacturing driving unit for manufacturing an eco-friendly solid fuel hole bullet by compressing the agricultural waste while being drawn into the molding unit according to whether the hydraulic device is operated or not.

Description

Eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste {Briquetting equipment using agricultural waste}

The present invention relates to an environment-friendly solid fuel hole coal manufacturing apparatus using agricultural waste. More specifically, it relates to an eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste that provides an eco-friendly solid fuel hole coal that can be used as a fertilizer or compost by using the ash left after burning without generating harmful substances using agricultural waste.

In general, solid fuel hole coal is a solid fuel that has been used as a heating fuel for a long time. Due to the recent rise in oil prices, some restaurants have also increased the demand for food grilled on solid fuel holes.

Since solid fuel boreholes are manufactured using coal, which is a fossil fuel, when solid fuel boreholes are burned, lead, cadmium, copper, chromium, arsenic, mercury, carbon monoxide and carbon dioxide are generated in large quantities, polluting the atmosphere, and It produces carcinogens and is harmful to the human body.

In addition, the solid fuel hole coal ash remaining after combustion of the solid fuel hole coal scatters into the air and damages nature including soil pollution. Accordingly, there is a problem in that the processing cost for separately processing the solid fuel hole carbon material is also separately generated.

In order to improve this, development of a solid fuel that does not generate harmful components is required, and Korean Patent Registration No. 10-1440758 discloses a method for manufacturing an eco-friendly solid fuel using waste food materials such as rice husk and oak sawdust.

However, since such an eco-friendly solid fuel produces charcoal using a direct carbonization method, it takes a long time of 20 hours or more to produce the charcoal, thereby reducing productivity.

In addition, since sodium chloride is used as an additive, the solid fuel is not sufficiently solidified, and the burnt ashes of the solid fuel cannot be used as compost or fertilizer.

In addition, the conventional eco-friendly solid fuel is compressed with air pressure, so the compressive strength is weak, and there is a problem of environmental pollution due to the scattering of burnt ash, and the drying time is at least 12 hours using the natural drying method in the manufacturing process. There was a problem that productivity was reduced due to the required amount of energy, and the amount of heat was not sufficient as 4,800 kcal or less.

Republic of Korea Patent No. 10-1440758

In order to solve such a problem, the present invention has been devised by the above-mentioned background technology, and the ashes that are burned without generating harmful substances using agricultural waste can be used as fertilizers or composts, thereby reprocessing the enhanced wastes. An object of the present invention is to provide an eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste that can reduce costs.

In addition, the present invention provides an eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste that can be mass-produced in a short time by compressing agricultural waste using hydraulic pressure to shape it into a solid fuel hole coal shape, and then automatically discharging it. but it has a purpose.

However, the object of the present invention is not limited thereto, and even if not explicitly mentioned, the object or effect that can be grasped from the solving means or embodiment of the problem is also included therein.

According to an embodiment of the present invention for achieving the above object, a lower driving frame with a built-in rotating device, an input device for inputting a certain amount of agricultural waste, and a lifting frame that lifts and lowers for the production of eco-friendly solid fuel hole bullets And, a hydraulic device for elevating the elevating frame, a conveyor for transferring the molded eco-friendly solid fuel hole bullets, and the eco-friendly solid fuel hole bullets mounted on the rear part of the lifting frame and molded during the lowering operation of the lifting frame a frame portion including a solid fuel hole bullet discharge member for pushing the to the conveyor side; a molding unit rotatably coupled to the upper portion of the lower driving frame and configured to be molded into an eco-friendly solid fuel hole coal using agricultural wastes supplied from the input device; and a manufacturing driving unit for manufacturing an eco-friendly solid fuel hole bullet by compressing the agricultural waste while being drawn into the molding unit according to whether the hydraulic device is operated or not.

In addition, according to an embodiment of the present invention, the frame part is configured at positions corresponding to each other on the front side of the upper surface of the lower driving frame, and the manufacturing driving part is subjected to pressure generated when the driving part is withdrawn from the molding part. It characterized in that it further comprises; a splash prevention member for preventing the forming portion from being splashed from the lower driving frame by the occurrence of a splash.

In addition, according to an embodiment of the present invention, the molding unit, a molding top plate in which a plurality of molding through-holes are formed at positions of respective branch points corresponding to intervals of 90° with respect to the center of the axis; a lower forming plate configured to be formed under the upper forming plate and rotatably coupled to the rotating device; And it is configured between the forming upper plate and the forming lower plate, agricultural waste is supplied from the input device, the eco-friendly solid fuel hole coal is molded by compression when the manufacturing driving part is lowered, and the emission of the eco-friendly solid fuel hole bullet is completed. It is characterized in that it comprises a; molded housing configured to be made.

In addition, according to an embodiment of the present invention, the manufacturing driving unit may include: a driving cylinder configured to perform a step-by-step lifting operation according to whether the hydraulic device is driven; a pressing panel configured to a lower portion of the elevating frame and coupled to an elevating support rod connected to the elevating frame; a guide member that is rotatably coupled to both sides of the pressure panel, respectively, and a control cylinder configured to control the range for the splay operation on the upper portion; an elevating guide panel mounted on the elevating frame, configured to perform elevating operation along the guide member, and guiding the rotational operation of the guiding member during elevating; a compression body integrally configured with a lower portion of the pressing panel and forming an eco-friendly solid fuel hole bullet by pressurizing agricultural waste while being drawn into the molding unit during the lowering operation of the lifting frame; a pull-out driving part mounted on the front part of the pressing panel and moving the main body pull-out part upward; a main body lead-out part coupled to an end of the pull-out driving part and connected to the compression body to move the compression body by a predetermined height when the pull-out driving part is driven; and a hole forming member configured at a lower portion of the elevating frame and forming a solid fuel hole for an eco-friendly solid fuel hole while being drawn into the inside of the compression body.

In addition, according to an embodiment of the present invention, the guide member is configured to provide a predetermined pressing force toward the pressing panel while rotating by a predetermined angle from the pressing panel only when the lifting guide panel is lowered. characterized in that

According to this embodiment of the present invention, the ash left after burning without generating harmful substances using agricultural waste can be used as fertilizer or compost, thereby reducing the reprocessing cost of enhanced waste.

In addition, according to an embodiment of the present invention, by compressing agricultural waste using hydraulic pressure to shape it into the shape of solid fuel hole coal, and then automatically discharging it, mass production is possible in a short time, as well as solid fuel hole coal. It has the effect of reducing the manufacturing cost.

In addition, various and beneficial advantages and effects of the present invention are not limited to the above, and will be more easily understood in the course of describing specific embodiments of the present invention.

1 is a view schematically showing an environment-friendly solid fuel hole coal manufacturing apparatus using agricultural waste according to an embodiment of the present invention;
2 and 3 are views showing the solid fuel hole coal manufacturing unit of the eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste according to an embodiment of the present invention;
4 to 7 are views showing the operating state of the manufacturing driving unit of the eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste according to an embodiment of the present invention;
8 and 10 are diagrams schematically showing the operating state of the eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, it should be noted that in adding reference numerals to the components of each drawing, the same components are given the same reference numerals as possible even if they are indicated on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the components from other components, and the essence, order, or order of the components are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but another component is between each component. It should be understood that elements may be “connected,” “coupled,” or “connected.”

As shown, the present invention is mounted on the frame part 100, the frame part 100 that supports so that the production of solid fuel hole coals formed in the shape of conventional briquettes using agricultural wastes can be made, and the input agricultural waste It is configured to include a molding unit 200 for manufacturing a solid fuel hole bullet by compression molding and a manufacturing driving unit 300 for providing a predetermined power so that the compression operation of the molding unit 200 can be made.

The frame part 100 is configured to seat the solid fuel hole pellet manufacturing apparatus on the ground, the lower driving frame 110 to which the molding part 200 is rotatably coupled to the upper part, and one side of the lower driving frame 110 . The input device 130 for injecting a certain amount of agricultural waste to the molding housing 230 side of the molding unit 200, and the manufacturing driving unit 300 are mounted, and elevating to guide the lifting operation of the manufacturing driving unit 300. The frame 140, the upper frame 150 is configured on the upper part of the lifting frame 140, the hydraulic device 160 for elevating the manufacturing driving unit 300 is mounted, and the lower driving frame 110 at the rear of the rear part. It is arranged, and it is configured to include a conveyor 170 for transporting the eco-friendly solid fuel hole bullet discharged after the molding is completed.

The lower driving frame 110 has a built-in rotating device 112 that provides a predetermined rotational force by using energy such as hydraulic pressure or electricity therein, is connected to the upper portion of the rotating device 112 and is connected to the molding unit 200 . A rotation support panel 116 to which the molding lower plate 220 is rotatably coupled is configured.

A lower surface of the rotation support panel 116 is seated on the lower driving frame 110, and a support panel 114 for supporting the rotation device 112 and the rotation support panel 116 to be rotatably coupled is configured. .

The lower driving frame 110 is fixedly coupled to the lower end of the elevating guide rod 102 for guiding the elevating operation of the elevating frame 140 to both upper sides.

In addition, the lower driving frame 110 is configured at positions corresponding to each other on the front side of the upper surface, and the molding unit 200 is lowered by the pressure generated when the manufacturing driving unit 300 is withdrawn from the molding unit 200 . A splash prevention member 120 is further configured to prevent a splash phenomenon from occurring from the driving frame 110 .

At this time, the anti-splash member 120 is coupled to the support panel 114, and the contact rod is in close contact with the upper surface of the lower molded plate 220 while drawing in and out according to the control of the control device (not shown). Consisting of a close contact means 124 and a close contact housing 122 that supports the retracting and withdrawing operations of the contact rod of the contact means 125 , the molding unit 200 is formed together in the drawing out direction of the manufacturing driving unit 300 . It is configured to prevent a positional movement such as rising or bouncing from occurring.

The input device 130 is a component that stores agricultural wastes carbonized and dried in an indirect carbonization method, and inputs the stored agricultural wastes into the molding housing 230 of the molding unit 200 .

The input device 130 is formed through the lower side, and is configured to communicate with the open upper surface of the molding housing 230, and an input hole 132 for injecting a certain amount of stored agricultural waste into the molding housing 230 side; The input impeller is configured in the lower central part, and the input impeller is configured to transfer the stored agricultural waste to the input hole 132 side while the one-way rotation operation is made.

At this time, the input impeller is preferably configured to be rotated by a rotating means such as a separate driving motor, and when the input of agricultural waste to the open upper end of the molding housing 230 is completed, the rotation operation is stopped in the control device. It would be desirable to be controlled by

The elevating frame 140 is configured to be spaced apart from the upper portion of the lower driving frame 110 by a predetermined interval, and both sides are configured to be connected to the elevating guide rod 102 so that the lifting and lowering operations are performed along the elevating guide rod 102 . configured to be done.

The lifting frame 140 is equipped with a driving cylinder 302 for lifting and lowering by a hydraulic device 160 at an upper portion, and a manufacturing driving unit 300 is mounted on the front and rear portions, respectively.

At this time, the lifting frame 140 is formed with a mounting portion 142 that is recessed so that the manufacturing driving unit 300 can be mounted to the center of the front and rear portions, and the lifting and lowering operation of the driving cylinder 302 to the upper center is formed. The upper central frame 144 is configured to support it.

The upper frame 150 has a hydraulic device 160 built therein, and the lifting cylinder rods 102 are coupled to both sides to support the lifting operation of the lifting frame 140 .

At this time, the hydraulic device 160 is configured to receive a drive control signal from the control device to raise and lower the drive cylinder 302 step by step.

Here, the step-by-step elevating means, after the elevating operation of the elevating frame 140 to which the control driving unit 300 is mounted, and the elevating and elevating operation of the elevating frame 140, a hole forming member configured in the control driving unit 300 to be described later ( 370) means that the lifting operation is performed sequentially.

Conveyor 170 is configured to seat the eco-friendly solid fuel bore holes when the molded eco-friendly solid fuel bore holes are discharged from the forming unit 200, and transport the eco-friendly solid fuel bore pellets to the loading warehouse, etc. is composed

On the other hand, the frame part 100 of the present invention is configured with a solid fuel hole bullet discharge member 180 for discharging the molded eco-friendly solid fuel hole bullet from the molding housing 230 to the conveyor 170 side.

The solid fuel hole bullet discharge member 180 is mounted on the other side of the rear side of the elevating frame 140 , and while descending together during the lowering operation of the elevating frame 140 , penetrates the forming upper plate 210 of the forming unit 200 . It is a component that serves to push the eco-friendly solid fuel hole bullet located in the molding housing 230 toward the conveyor 170 .

This solid fuel hole bullet discharge member 180 is formed at the lower end of the discharge rod 182 fixedly coupled to the elevating frame 140 and the discharge rod 182, and the molding through-hole 212 of the molding upper plate 210 is formed. It may be composed of a discharge panel 184 that presses the upper surface of the eco-friendly solid fuel hole bullet as it penetrates and then enters the molded housing 230 .

The molding unit 200 is seated on the upper portion of the rotation support panel 116 of the lower driving frame 110 , and is coupled to the rotation support panel 116 so as to be rotatably operated, and a certain amount of agricultural waste from the input device 130 . They are supplied and molded in the shape of a solid fuel hole bullet, and the molded eco-friendly solid fuel hole bullet is discharged to the conveyor 170 side, and the molding upper plate 210, the molding lower plate 220, and the molding housing 230 are formed. consists of including

The forming upper plate 210 forms the upper end of the forming unit 200, and the central portion is formed through and is configured to be rotationally coupled to the rotating device 112. Positions of each branch point corresponding to an interval of 90° with respect to the center of the axis A molded through-hole 212 is formed at the same center as the axial center of the molded housing 230 .

At this time, the molding through-holes 212 are configured to be spaced apart from each other by a predetermined distance, and by being configured in at least two or more, a plurality of eco-friendly solid fuel hole bullets are manufactured in one production cycle.

The molding top plate 210 is configured such that the compression body 340 of the manufacturing driving unit 300 penetrates through the molding through-holes 212 located on the front side of the molding through-holes 212 formed at the respective branch points. One side of both sides is configured to form the same center as the input hole 132 of the input device 130 so that a certain amount of agricultural waste passes through the molding through hole 212 to be supplied to the inside of the molding housing 230 . The other side is configured so that the discharge panel 184 of the solid fuel borehole discharge unit 180 passes through, and the discharge of the eco-friendly solid fuel borehole coal is made.

The lower molding plate 220 is a component that guides the input, molding, and discharge of agricultural waste while the lower surface is rotatably coupled to the rotation support panel 116 so that a one-way rotation operation is performed when the rotation device 112 is driven. to be.

At this time, the rotation support panel 116 seals the lower end of the molding housing 230 at the position where the input and molding of agricultural waste is made, and the same through-hole as the molding through-hole 212 at the position where the discharge should be performed after the molding is completed. It is preferable to form a so that it is easily discharged.

The molding housing 230 is configured between the molding upper plate 210 and the molding lower plate 220, and is composed of the same number of the molding through-holes 212, so that the rotation operation of the molding lower plate 220 and the manufacturing driving unit 300 are driven. It is a component that inputs, forms, and discharges agricultural waste according to the

The molded housing 230 is formed so that the upper and lower portions are opened, and when input and molding of agricultural waste is made, the lower part opened by the rotation support panel 116 is sealed, and when discharged, the upper part is opened. The solid fuel hole bullet discharge member 180 is configured to discharge the eco-friendly solid fuel hole bullet to the lower part as it is introduced.

The manufacturing driving unit 300 is configured to be drawn into or out of the molded housing 230 while the lifting operation is made depending on whether the hydraulic device 160 is operated, and agricultural waste supplied to the inside of the molded housing 230 . It plays a role of forming into the shape of an eco-friendly solid fuel hole bullet by pressurizing and pressing, and the driving cylinder 302, the elevating guide panel 310, the guide member 320, the pressing panel 330, and the pressing body 340 ), a pull-out driving unit 350 , a main body lead-out unit 360 and a hole forming member 370 .

At this time, the lifting guide panel 310 , the guide member 320 , the pressing panel 330 , the pull-out driving unit 350 , and the main body pull-out unit 360 are configured at positions corresponding to each other in the front and rear portions of the lifting frame 140 , respectively. and the compression body 340 and the hole forming member 370 are formed in the same number as the molding housing 230 of the molding unit 200 .

The driving cylinder 302 is connected to the hydraulic device 160 included in the upper frame 150 , and is configured to perform a step-by-step lifting operation according to whether the hydraulic device 160 is driven.

The elevating guide panel 310 is mounted on the upper center frame 144 of the elevating frame 140 by means of the fixed brackets 312 coupled to both ends of the rear portion, and preferably at the upper center of the elevating guide panel 310 . It is configured at the front and rear of the frame 144 , respectively, and guides the lifting and lowering operations of the lifting frame 140 while the lifting and lowering operations are performed together when the lifting and lowering operations of the lifting frame 140 are performed.

This elevating guide panel 310 is configured such that the central portion is formed through the guide member 320 to be disposed, and guides the guide member 320 so that the opening operation is made during the lowering operation, and the guide member 320 during the ascending operation. guides the operation of returning it to its original position.

The guide member 320 is configured in plurality so that the lower end is rotatably coupled to both sides of the pressing panel 330 , and the upper end is configured to insert and penetrate the central portion of the elevating guide panel 310 , so that the elevating guide panel 310 . ) serves to guide the lifting operation, and to guide the extraction of the hole forming member 370 before the pressing body 340 when withdrawing the hole forming member 370 .

The guide member 320 is configured with a control cylinder 322 for controlling the range for the splay operation on the upper portion, and coupling grooves 324 to which both ends of the control cylinder 322 are rotatably coupled are formed.

Such a guide member 320 is positioned to form a right angle with the elevation guide panel 310 when the elevation guide panel 310 is positioned on the upper portion, and the pressure panel 330 only when the elevation guide panel 310 is lowered. ), a predetermined pressing force is provided to the pressing panel 330 while rotating by a predetermined angle.

After that, when the production of the eco-friendly solid fuel hole bullet is completed and the elevating guide panel 310 rises along the elevating frame 140, the hole forming member 370 is also elevated together with the elevating frame 140, and the guide member ( 320 is to release the pressing force provided to the pressing panel 330 while returning to the original position along both inner surfaces of the lifting guide panel 310 to the pressing panel 330 and the pressing body 340 coupled to the pressing panel 330. to make the lifting operation of the

That is, the guide member 320 of the present invention guides the lifting operation of the hole forming member 370 before the compression body 340 when the production of the eco-friendly solid fuel hole bullet is completed.

The pressing panel 330 is configured to be spaced apart from the lower portion of the lifting frame 140 by a predetermined interval, and is configured to be connected to the lifting frame 140 by the lifting support rod 304 .

In this case, the lifting support rod 304 serves to support the lifting operation when only the lifting frame 140 , the lifting guide panel 310 , and the hole forming member 370 perform the lifting operation.

In addition, the pressing panel 330 is configured such that the pressing body 340 is coupled to the lower portion, the pressing body 340 and the hole forming member 370 are located on the same axis, and the hole forming member 370 is the pressing body ( 340) is configured to be drawn in and out of the upper part.

In addition, the lower end of the pressure panel 330 is rotatably coupled to the lower end of the guide member 320 , and the pull-out driving unit 350 is mounted to the central portion to support the driving of the pull-out driving unit 350 .

The compression body 340 is integrally configured with the lower portion of the pressing panel 330 , the hole forming member 370 is drawn in and out of the upper portion, and the hole of the hole forming member 370 is formed at the lower end. The forming pin 372 is configured to form a solid fuel bore hole of an eco-friendly solid fuel bore hole while passing through it.

The compression body 340 is introduced into the molded housing 230 in which agricultural waste is loaded while the lowering operation is performed during the lowering operation of the elevating frame 140 . In addition, the compression body 340 pressurizes agricultural waste so that compression molding is made in the shape of an eco-friendly solid fuel hole bullet.

The compression body 340 has an annular seating flange 342 along the outer circumferential surface, and the seating flange 342 is configured to be seated on the upper surface of the forming top plate 210 .

In addition, the compression body 340 pressurizes and compresses agricultural waste while the lowering operation is performed only until the seating flange 342 comes into contact with the molding top plate 210 .

At this time, the hole forming member 370 is lowered after the seating flange 342 is in contact with the forming upper plate 210, and preferably, the elevating frame 140 to which the hole forming member 370 is coupled. is configured so that the lowering operation of the

The pull-out driving unit 350 is mounted on the front part of the pressing panel 330 , and is connected to the compression body 340 at the end of the cylinder rod 352 , and the compression body depends on whether the extraction driving unit 350 is driven or not. The main body lead-out part 360 is configured to move the 340 upward by a certain height.

This withdrawal driving unit 350 is made of a conventional pneumatic cylinder.

The main body lead-out unit 360 separates the compressed body 340 from the eco-friendly solid fuel hole bullet after the molding of the eco-friendly solid fuel hole bullet is completed, and prevents the eco-friendly solid fuel hole bullet from moving up and down when the pressing body 340 is lifted. is an element

The main body lead-out unit 360 includes a connection panel 362 connected to the cylinder rod 352 of the withdrawal driving unit 350, and a rotation panel 364 rotatably coupled to both sides of the connection panel 362, respectively, and , one end is rotatably coupled to the rotating panel 364, and the other end is connected to the pressing body 340 so that the pressing body 340 is rotated with the rotation range of the rotating panel 364 when the rotation panel 364 is rotated upwardly. It is composed of a moving member 366 that moves upward by a corresponding height.

The hole forming member 370 is located on the same center line as the compression body 340, and is coupled to the lower portion of the elevating frame 140, and a plurality of hole forming pins 372 for forming a solid fuel hole bullet hole at the lower end are configured. do.

This hole forming member 370 forms a solid fuel hole for an eco-friendly solid fuel hole bullet as the lowering operation is made after the compression body 340 is drawn into the inside of the molding housing 230 is completed, and preferably, the compression body ( 340) is configured such that the lowering operation is made after the seating flange 342 is in contact with the molding top plate 210, and when the molding of the eco-friendly solid fuel hole bullet is completed, the lifting operation is performed before the compression body 340 is composed

Terms such as "include", "compose" or "have" described above mean that the corresponding component may be embedded unless otherwise stated, so it does not exclude other components. It should be construed as being able to further include other components, and all terms including technical or scientific terms are generally understood by those of ordinary skill in the art to which the present invention belongs, unless otherwise defined. have the same meaning as

In addition, the above description is merely illustrative of the technical idea of the present invention, and various modifications and variations are possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: frame part 110: lower driving frame
120: splash prevention member 130: input device
140: elevating frame 150: upper frame
160: hydraulic system 170: conveyor
180: solid fuel hole bullet discharge member 200: molding part
210: molding upper plate 220: molding lower
230: molded housing 300: manufacturing drive unit
302: drive cylinder 304: elevating support rod
310: elevating guide panel 320: guide member
330: pressing panel 340: pressing body
350: draw-out driving unit 360: main body draw-out unit
370: hole forming member

Claims (4)

A lower drive frame with a built-in rotating device, an input device for putting in a certain amount of agricultural waste, a lifting frame that lifts and lowers for the production of eco-friendly solid fuel hole bullets, a hydraulic device for raising and lowering the lifting frame, and an environment-friendly molding that has been molded A frame part comprising: a conveyor for transporting solid fuel boreholes; and a solid fuel borehole discharge member mounted on the rear part of the elevating frame and pushing the eco-friendly solid fuel borehole bullets that have been molded to the conveyor when the lifting frame is lowered ;
a molding unit rotatably coupled to the upper portion of the lower drive frame and configured to be molded into an eco-friendly solid fuel hole coal using agricultural wastes supplied from the input device; and
Containing; and a manufacturing driving unit for manufacturing eco-friendly solid fuel hole pellets by compressing the agricultural waste as it enters the molding unit according to whether the hydraulic device is operated or not,
The frame part is configured at positions corresponding to each other on the front side of the upper surface of the lower driving frame, and the molding part bounces from the lower driving frame by the pressure generated when the manufacturing driving part is withdrawn from the molding part. Eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste, characterized in that it further comprises; a splash prevention member to prevent this from occurring.
According to claim 1,
The molding part,
a molding top plate having a plurality of molding through-holes formed at positions of respective branch points corresponding to intervals of 90° with respect to the center of the axis;
a lower forming plate configured under the upper forming plate and rotatably coupled to the rotating device; and
It is constituted between the forming upper plate and the forming lower plate, and agricultural waste is supplied from the input device, and the eco-friendly solid fuel hole bullet is molded by compression when the manufacturing driving part is lowered, and the eco-friendly solid fuel hole bullet is discharged. A molded housing configured to be;
Eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste, characterized in that it comprises a.
According to claim 1,
The manufacturing drive unit,
a driving cylinder configured to perform a step-by-step lifting operation according to whether the hydraulic device is driven;
a pressing panel configured to a lower portion of the elevating frame and coupled to an elevating support rod connected to the elevating frame;
a guide member which is rotatably coupled to both sides of the pressure panel, respectively, and a control cylinder for controlling the range of the splay operation on the upper portion;
an elevating guide panel mounted on the elevating frame, configured to perform elevating operation along the guiding member, and guiding the rotational operation of the guiding member during elevating;
a compression body integrally configured with a lower portion of the pressing panel and forming an eco-friendly solid fuel hole bullet by pressurizing agricultural waste while being drawn into the molding unit during the lowering operation of the lifting frame;
a pull-out driving part mounted on the front part of the pressing panel and moving the main body pull-out part upward;
a main body draw-out unit coupled to an end of the pull-out driving unit and connected to the compression body to move the compression body by a predetermined height when the pull-out driving unit is driven; and
a hole forming member configured at a lower portion of the elevating frame and forming a solid fuel hole for an eco-friendly solid fuel hole while being drawn into the compression body;
Eco-friendly solid fuel hole coal manufacturing apparatus using agricultural waste, characterized in that it comprises a.
4. The method of claim 3,
The guide member is
Eco-friendly solid fuel hole bullet manufacturing apparatus using agricultural waste, characterized in that it is configured to provide a predetermined pressing force to the pressing panel side while rotating by a predetermined angle from the pressing panel only when the lifting guide panel is lowered.

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