KR200452752Y1 - Briquette manufacturing device for easy self-production by consumers - Google Patents

Abstract

The present invention relates to a briquette manufacturing apparatus that is easy for a consumer to self-produce, and more specifically, to reduce the transportation cost and production cost by allowing the consumer to directly manufacture the briquette by receiving the fuel raw material in a packaged state, and to transport the briquette. The present invention relates to a briquette manufacturing apparatus that facilitates self-production by a consumer to prevent air pollution and the like caused by fine dust generated in a process.

That is, the present invention is a square frame body is fixedly installed on the upper portion of the rectangular frame is provided with a briquette forming portion and a demolding portion inside the square frame body so that the molding frame can be fixed and moved, but the molding frame is horizontally on both sides. Fixing holes are formed and fixing pins are selectively coupled to the first and second coupling holes respectively formed on the sidewalls of the rectangular frame body so that the forming frame can be fixed at the position of the briquette forming part or the demolding part, and one side of the forming frame Is connected to the piston rod of the horizontal operating cylinder so that it can move horizontally in the longitudinal direction of the rectangular frame body, and the forming pin guide member installed in the coupling groove formed directly below the top surface of the briquette forming part and the top surface of the fixing part. The discharge hole formed in a direct downward direction, and the pressure plated member having a plurality of briquette forming pins disposed above the briquette forming part connected to the piston rod of the first lifting operation cylinder, and the pressure release forming member so as to be lifted, and a demoulding plate on the top of the demolding part A demolition member connected to the piston rod of the second elevating operation cylinder and allowed to elevate, and a stopper horizontally or vertically rotatable with a fixed shaft at the top of the vertical support, which is installed on the upper side of the briquette forming part and the demolding part, is installed so that the presser And a stopper member for controlling the descending of the demolding plate, and the horizontal operating cylinder and the first and second elevating operating cylinders are characterized by a briquette manufacturing device that is easy for the consumer to self-produce to be operated by a pneumatic control means. do.

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Description

Briquette manufacturing device that is easy for consumers to self-produce {omitted}

The present invention relates to a briquette manufacturing apparatus that is easy for the consumer to self-produce, and more specifically, to reduce the transportation cost and production cost by allowing the consumer to directly manufacture the briquette by receiving the fuel raw material in a packaged state, and to transport the briquette. The present invention relates to a briquette manufacturing apparatus that facilitates self-production by a consumer to prevent air pollution and the like caused by fine dust generated in a process.

Generally, briquettes are fossil fuels that have been widely used for cooking and heating by nationals since long ago, and are mainly produced in large quantities in briquette production plants and transported to each customer.
However, in recent years, electricity, LPG, city gas, and petroleum have been used as fuel for heating and cooking, but the use of briquettes has been decreasing, but because briquettes are relatively inexpensive, some people who are very difficult to live in or living in vinyl houses Although it is used as a heating fuel, there is a problem in that the use of briquettes rapidly decreases and productivity decreases significantly, and rather, briquettes produced at a high cost must be supplied at a low price.
Also, in the briquette production plant, briquettes are produced by mass production process, so the composition of the briquette manufacturing equipment is complicated and installation cost is high. The stage of production of briquettes is supplied to consumers by producing briquettes at a factory installed at a site of a briquette production plant formed by automation, a commercial parking lot and a parking lot that supplies briquettes, and a site that can be transported by rail freight cars. Step of loading and unloading the transported raw materials at the briquette production plant, producing briquettes by mixing them as standard raw materials, loading briquettes on a freight car, transporting them to the briquette sales office, and storing them As it is supplied to the consumer through several stages such as the steps stored in the consumer warehouse, this has caused the briquette manufacturing cost to rise, and fine dust is generated while transporting and transporting the raw materials and briquettes, polluting the air, and in case of rain, the raw materials and briquettes are water. When wet, there was a problem such as loss and contamination of the river.

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In order to solve this problem, the present invention increases the production cost of briquettes by allowing the consumer to easily produce a small amount of briquettes using the supplied briquette raw material after the consumer is supplied with the briquette raw material that has been formulated and packaged at a constant rate. It is to provide a briquette manufacturing apparatus that is easy for a consumer to self-produce to reduce and prevent environmental pollution.

In the present invention, a square frame body is fixedly installed on an upper portion of a square-shaped fixed table, and a soft elastic molding part and a demolding part are provided inside the square frame body so that the molding frame can be fixed and moved. Fixing pins are selectively coupled to the first and second coupling holes formed on the sidewalls of the rectangular frame body, respectively, so that the forming frame can be fixed at the position of the briquetting or demolding part, and one side of the forming frame is horizontal It is connected to the piston rod of the operating cylinder so that it can move horizontally in the longitudinal direction of the rectangular frame body, and the molding pin guide member installed in the coupling groove formed directly below the upper surface of the stationary part of the briquette forming part, and directly below the upper surface of the stationary part of the release part. The discharge hole formed by, and the pressurizing plate having a plurality of briquette forming pins disposed above the briquette forming part is connected to the piston rod of the first elevating operation cylinder so as to elevate, and the demoulding plate on the upper part of the demolding part is second A demolition member connected to the piston rod of the elevating operation cylinder, and a stopper is rotatably installed horizontally or vertically on the top of the vertical support, which is installed on the upper side of each of the briquette forming part and the demolding part, so that the stopper is horizontally or vertically rotatable and pressurized plate and demoulding The stopper member for controlling the descending of the plate, and the horizontal operating cylinder and the first and second elevating operating cylinders are characterized by a briquette manufacturing device that is easy for the consumer to self-produce to be operated by a pneumatic control means.

As described above, the briquette manufacturing apparatus for easy self-production by the consumer according to the present invention has a simple structure in a form that allows a small amount of production, so the consumer can purchase the briquettes relatively easily and easily produce the briquettes. It has the effect that it can be conveniently produced by supplying the packaged fuel raw material and producing it in a time when it is necessary to use briquettes.
In this way, by using the briquette manufacturing device that is easy for self-production, consumers can load low-cart, commercial and briquettes required for mass production in a briquette production plant onto a freight car and transport them to a briquette sales office to carry out various steps such as warehouse storage. Since there is no need to go through, productivity is greatly improved, and there is no concern about air pollution and water pollution due to the loss of fuel raw materials and briquettes in the process of transportation of briquette raw materials and briquettes using freight cars, etc. It has the effect to do.

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The present invention relates to a briquette manufacturing apparatus that facilitates self-production by a consumer, so that a consumer can easily produce a small amount of briquette using the supplied briquette raw material after the consumer receives the briquette raw material in a packaged state.
In the briquette manufacturing apparatus according to the present invention, a square frame body 10 is fixedly installed on an upper portion of a square-shaped fixing table A, and a briquette forming portion 30 and a demoulding portion 40 are provided inside the square frame body 10. It is provided so that the forming frame 20 can be fixed and moved, but the forming frame 20 is formed with fixing holes 22 horizontally at both ends, respectively formed on the sidewalls of the rectangular frame 10 in the longitudinal direction. 2 The fixing pin 24 is selectively coupled to the coupling holes 12 and 12' so that the molding frame 20 can be fixed at the position of the briquette forming portion 30 or the demoulding portion 40, and the molding is performed. One side of the frame 20 is connected to the piston rod of the horizontal operating cylinder 68 so that it can move horizontally in the longitudinal direction of the square frame body 10, and is directly below the upper surface of the fixture A of the briquette forming part 30. Forming pin guide member 34 installed in the coupling groove 32 formed by, and the discharge hole 42 formed directly downward on the upper surface of the fixing table (A) of the demolding portion 40, and the briquette forming portion 30 Pressing plate 54 is disposed on the upper part of the plurality of briquettes forming pin 56 is connected to the piston rod of the first lifting operation cylinder 52, the pressure forming member 50 and the lifting portion 40 The demolding plate 64 is connected to the piston rod of the second elevating operation cylinder 62 on the upper part of the demolding member 60 so as to be elevated and the briquette forming part 30 and the demolding part 40, respectively. The stopper member (70) is installed on the upper end of the vertical support (72) with a fixed axis to be rotatable horizontally or vertically to control the downward movement of the pressure plate (54) and the release plate (64). And, the horizontal operation cylinder 68 and the first and second lifting operation cylinders 52 and 62 are characterized in that the operation is made by the pneumatic control means (80).
The present design is a briquette forming part 30 for placing a forming frame 20 for forming briquettes on the upper surface of the fixing table A, and a forming frame 20 on one side of the briquette forming part 30. Deformation unit 40 for moving and demolding the molded briquettes, and a press-molding member provided on an upper portion of the briquetting unit 30 to press-molt the briquette raw material B'introduced into the forming frame 20 It is largely divided into 50 and a demolding member 60 for separating the molded briquettes (B) provided on the demolding part 40 from the mold 20.
The fixing plate (A) is formed in a rectangular shape, and a square frame body (10) opened up and down on its upper surface is fixedly installed, and a molding frame (20) is seated inside the square frame body (10), so that the molding frame (20) is briquette molding. The first and second coupling holes 12 and 12' are formed on both side walls in the longitudinal direction of the square frame 10, respectively, so that they can be fixed and moved to the part 30 and the demolding part 40, respectively. A fixed hole 22 is formed in 20, and is selectively fitted into the first coupling hole 12 or the second coupling hole 12' to the fixing hole 22 of the forming frame 20 with the fixing pin 24. The molded frame 20 can be fixed to the briquette forming part 30 or the demolding part 40 by means of being made, and one end of the forming frame 20 is connected to the piston rod of the horizontal operation cylinder 68. In the longitudinal direction of the square frame body 10, the molding frame 20 can be horizontally moved to the briquette forming portion 30 or the demoulding portion 40.
In order to form the briquettes of the briquette forming portion 30, the upper surface of the fixing table A at the position where the forming frame 20 is placed is formed with a coupling groove 32 in a direct downward direction and a briquette forming pin in the coupling groove 32 Molding pin guide member 34 is installed to allow the front end of 56 to be fitted, so that the briquette molding pin 56 is allowed to pass through the lower end of the forming frame 20 so that briquettes injected into the forming frame 20 While pressing the raw material, the briquette hole by the briquette forming pin 56 is smoothly formed.
The top surface of the holder (A) at a position where the forming frame 20 is placed at a position for demoulding the briquettes of the demolding part 40 is formed with a discharge hole 42 directly below and directly under the molded briquette (B). It is dropped on the carry-out part 44 of the room to allow external carry-out.
The press-molding member 50, a press plate 54 for press-molding the briquette raw material (B') that is put into the forming frame 20, and a plurality of briquette forming pins disposed under the press plate 54 ( 56), and the upper side of the pressure plate 54 is connected to the piston rod of the first lifting operation cylinder 52 so that the lifting operation is possible.
The demolding member 60, the demolding plate 64 for demolding the briquettes molded in the molding frame 20 directly below, and the top of the demolding plate 64, the piston of the second lifting operation cylinder 62 It is connected to the rod so that it can be operated up and down.
In addition, on the upper side of the briquette forming part 30 and the demoulding part 40, a pressure plate 54 and a demolding plate 64 are provided with stopper members 70 capable of controlling the descent, respectively, to the stopper members 70. The pressure plate 54 or the demolding plate 64 in an elevated state is prevented from falling due to a mechanical error, but the stopper member 70 is a fixed shaft at the top of the vertical support 72. The stopper 74 is rotated horizontally or vertically to act as a stopper when the stopper 74 is placed horizontally, and the pressure plate 54 and the release plate 64 when the stopper 74 is placed vertically Make this descent.
In addition, the horizontal operation cylinder 68 and the first and second lifting operation cylinders 52 and 62 are operated by the pneumatic control means 80, but the pneumatic control means 80 uses the air compressor 82. The compressed air generated through the air storage tank 84 is connected to the first and second pneumatic control devices 86 and 86', respectively, and the air pressure of the first pneumatic control device 86 is the first, 2 Control the lifting operation cylinder (52, 62) and the air pressure of the second pneumatic control device (86') to control the horizontal operation cylinder (68), to connect the air pressure to the pneumatic control means (80) Of course, the connection pipe 88 and the control valve 89 are provided and used, respectively.
When explaining in detail with the accompanying drawings an embodiment according to the briquette manufacturing apparatus that is easy for the consumer self-production of the present invention as described above is as follows.
Figure 1 shows the overall configuration of the briquette manufacturing apparatus according to the present invention, the molding frame 20 is seated inside the square frame body 10 fixedly installed on the upper surface of the fixture (E) is mounted on the horizontal operating cylinder (68) The molding frame 20 is selectively moved to the briquette forming part 30 and the demoulding part 40, and when the forming frame 20 is placed on the briquette forming part 30 to form briquettes, the square frame body ( The fixing pin 24 is inserted into the fixing hole 22 of the forming frame 20 from the first coupling hole 12 of 10) to maintain the forming frame 20 in a fixed state, and then to the forming frame 20. The briquette raw material is introduced to mold the briquette.
That is, as shown in FIGS. 2 and 3, the fuel raw material (B') is introduced into the forming frame 20 and descended with the pressing plate 54 by the first elevating operation cylinder 52 to produce the fuel raw material (B) with the pressing plate 54. '), and at the same time, the briquette forming pin 56 at the bottom of the pressure plate 54 is to form a briquette hole. At this time, the tip of the briquette forming pin 56 is inserted into the forming pin guide member 34. Of course, it goes down to the losing position.
When the briquette molding is completed in this way, the pressing plate 54 and the briquette molding pin 56 are raised to the upper side of the forming frame 20 by the first elevating operation cylinder 52 to be spaced apart from the molded briquettes, and then molded. When moving the molding frame 20 containing briquettes to the demolding part 40 to remove the mold, the fixing pin 24 fixing the molding frame 20 to the square mold body 10 is removed to remove the molding frame 20 In a state in which it is possible to move, the molding frame 20 is moved to the demolding part 40 in a form of advancing the piston rod of the horizontal operation cylinder 68.
When the forming frame 20 is placed on the demolding part 40, the fixing pin 24 is penetrated from the second coupling hole 12' of the square frame body 10 to the fixing hole 22 of the forming frame 20. The molded mold 20 is held in a fixed state, and then the briquette B is demolded from the molded frame 20 containing the molded briquettes.
As shown in FIGS. 4 and 5, the demolding plate 64 is lowered by the second lifting operation cylinder 62 to push the briquette B contained in the forming frame 20 downward and discharge holes 42 Through this, it is possible to drop and supply the molded briquettes to the outside by dropping them into the carrying portion 44.
In this way, the present design is to insert the briquette raw material into the forming frame 20 from the briquette forming part 30 to form briquettes by the pressing plate 54 and the briquette forming pin 56, and then the forming frame 20 is formed into a demoulding part 40 ) To demold the briquettes in the forming frame 20 by the demolding plate 64 and then move the forming frame 20 in the reverse order to the briquetting part 30 to perform briquetting. .
And the upper side of the briquette forming portion 30 and the demolding portion 40 is provided with a stopper member 70 that can control the pressing plate 54 and the demolding plate 64 to descend, respectively, by the stopper member 70 It is possible to prevent a safety accident by preventing the pressure plate 54 or the demolding plate 64 in an elevated state from descending due to a mechanical error or the like.
In this way, the present invention, for example, when a briquette raw material packaged by a small-capacity bag is supplied directly to a consumer in the form of being transported from a coal mining facility, the consumer can make a small amount of the consumer by using the briquette manufacturing apparatus of the present invention that is easy for self-production. Since briquettes can be easily produced and used, there are various effects that can prevent the occurrence of contamination during transportation of briquette raw materials and prevent the loss of briquette raw materials in rainy weather.
The present invention has been described with reference to the above embodiments, but various modifications can be made within the technical scope of the present invention.

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1 is a front view showing the overall configuration of a briquette manufacturing apparatus according to the present invention.
Figure 2 is a partially enlarged cross-sectional view showing a preparation step for forming a briquette by inserting a briquette raw material into the molding frame in the briquette forming unit of the briquette manufacturing apparatus according to the present invention.
Figure 3 is a partially enlarged cross-sectional view showing the molding of the briquettes by the press-molding member in the briquette forming unit of the briquette manufacturing apparatus according to the present invention.
Figure 4 is an enlarged cross-sectional view of the demolding unit showing the demolding preparation step in the state the mold is moved to the demolding part of the briquette manufacturing apparatus according to the present invention.
Figure 5 is a partially enlarged cross-sectional view showing the demoulding of the briquettes by the demoulding member in the demoulding part of the briquette manufacturing apparatus according to the present invention.
Figure 6 is a perspective view showing the configuration of the briquette forming unit and the demolding unit of the briquette manufacturing apparatus according to the present invention.
Figure 7 is a perspective view showing the molding frame of the briquette manufacturing apparatus in the present invention.
Figure 8 is a perspective view showing a molding pin guide member of the briquette manufacturing apparatus in the present invention.
* Explanation of reference numerals for main parts of the drawing
A: Fixture B: Briquette
B': Briquette raw material 10: Square frame
12,12': 1st, 2nd coupling hole 20: Molding frame
22: fixing hole 24: fixing pin
30: briquette forming part 32: coupling groove
34: forming pin guide member 40: demolding part
42: discharge hole 44: carrying portion
50: pressure forming member 52: first lifting operation cylinder
54: pressure plate 56: briquetting pin
60: demolding member 62: second lifting operation cylinder
64: release plate 68: horizontal operation cylinder
70: stopper member 72: vertical support
74: stopper 80: pneumatic control means
82: air compressor 84: air storage tank
86,86': 1st, 2nd pneumatic control device 88: Connection pipe
89: control valve

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Claims (2)

The square frame body 10 is fixedly installed on the upper portion of the rectangular frame body A, and the briquette forming portion 30 and the demolding portion 40 are provided inside the square frame body 10, so that the mold frame 20 is fixed. And make it moveable The forming frame 20 has fixing pins 24 in the first and second coupling holes 12 and 12' formed on the side walls in the longitudinal direction of the square frame body 10 by horizontally fixing holes 22 at both ends. ) Is selectively combined so that the mold 20 can be fixed to the position of the briquette forming part 30 or the demoulding part 40, One side of the forming frame 20 is connected to the piston rod of the horizontal operating cylinder 68 so that it can move horizontally in the longitudinal direction of the rectangular frame 10, And the forming pin guide member 34 is installed in the coupling groove 32 formed in a direct downward on the upper surface of the fixture (A) of the briquette forming portion 30, And the discharge hole 42 formed in a direct downward on the upper surface of the fixture (A) of the demolding portion 40, The pressing plate member 54, on which a plurality of briquette forming pins 56 are disposed, is connected to the piston rod of the first elevating operation cylinder 52 so as to be elevated and lifted. , A demolding member (60) on the upper part of the demolding part (40) is connected to the piston rod of the second elevating operation cylinder (62), and the demoulding member (60), The stopper 74 is rotatably installed horizontally or vertically on the upper end of the vertical support 72, which is installed on the upper side of the briquette forming part 30 and the demolding part 40, so that it is rotatable horizontally or vertically, and the pressure plate 54 and demoulding A stopper member 70 for controlling the descending of the plate 64, and The horizontal operation cylinder (68), the first and second lifting operation cylinder (52, 62) is a consumer self-produced briquette manufacturing apparatus characterized in that the operation is made by a pneumatic control means (80). According to claim 1, The pneumatic control means 80, the compressed air generated through the air compressor 82 is connected to each of the first and second pneumatic control device 86, 86' through the air storage tank 84 Ha The air pressure of the first pneumatic control device 86 controls the first and second elevating operation cylinders 52 and 62, and the air pressure of the second pneumatic control device 86' controls the horizontal operation cylinder 68. A briquette manufacturing device that is easy for the consumer to self-produce.

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