KR100976143B1 - Device of A Concreted supporting instrument for telegraph poleficing - Google Patents

Abstract

The present invention is the raw material input conveyor (1), the input device (A) to feed the raw material in the raw material feeding conveyor (1), and the molding apparatus (B) for molding into the raw material is placed in front of the input device (A) And a conveying device (C) composed of a chain conveyor (400) positioned at the lower portion of the forming device (B) and conveyed together with the pallet (4) located at the lower portion so as to set up the molded article formed in the forming device (B); And a stacking device (D) installed at the end of the stacking device (C) and stacked on the stacking cassette (9) with the molded product transferred from the stacking device (C), and stacked on the rear of the stacking device (D). With a moving device (E) for moving the cassette (9), and a pallet (4) located at the lower side to be installed on one side of the moving device (E) and moved through the moving device (E) to set up the cured molded article. Unloading device (F) for loading and unloading in stacked stacking cassette (9), and the molded product unloaded in the loading and unloading device (F) Separation device (G) for separating the pallet from the pallet (4) located in the lower portion so as to be installed on one side of the separation device (G), pallet transfer device (H) for transferring the separated pallet, and the separation device (G) The present invention relates to a concrete apparatus for automated production of concrete, comprising a packaging device (I) installed at the front of the packaging unit) and a central control box 10 for controlling the operation of the devices.

Concrete floor manufacturing equipment. Concrete deduction automation manufacturing. Price manufacturing.

Description

Device of A Concreted supporting instrument for telegraph poleficing

 The present invention relates to a concrete near-automated manufacturing apparatus for supporting the telephone pole or communication pole by installing in the root portion when fixing the telephone pole or communication pole on the ground.

   In general, the work price is installed in the lower part of the telephone pole or telecom pole, the problem is that it is settled down, or the slope or conduction phenomenon is easily caused by the tension and external force between the lines, and natural conditions such as strong typhoons or artificial external forces and slight To support the telephone pole or communication pole to withstand the impact, the conventional root is formed a rectangular concrete body having a certain size, extending to the body to form a taper of a certain length, the end of the taper It is usually composed of support and u-bolt having horizontal plane at.

However, the above price has been manufactured by pouring concrete mortar by curing manually with the mold shown in Figure 1, but has been produced one by one, but the economic value such as manufacturing process and manufacturing cost has been a lot of problems due to the high price.

In Korea Utility Model Registration No. 20-0175339, an arc-shaped recessed groove (2), such as the curvature of the telegraph pole, is formed vertically in the center of the side with a support frame made of concrete. (3a) is penetrated and the pipe insertion hole (6) is formed in the middle of the recess groove is known concrete support for fixing poles,

Publication No. 20-0214620 has an upper shape of a rectangular column having a constant rectangular cross-sectional area, a rectangular cross section, and a lower cross-section having a positive cross section of an inverted trapezoid with a single axial length continuously decreasing along the longitudinal axis. It has a shape, a hole is formed along the longitudinal axis from the center of the rectangular cross section of the upper end, and the regeneration value recycling recycled poles, characterized in that the recess is formed in the center of the square cross section of the lower end,

In Korean Patent Registration Publication No. 10-0648440, the water reservoir 22 divided into two is formed inside the central compartment 21, and the branch rod vertical hole 28 is formed on the upper surface of the central compartment 21. ) Is formed to penetrate to the bottom surface, and two branch rod inclination holes 29 inclined at predetermined angles on both sides of the branch rod vertical hole 28 are formed on the upper surface of the central compartment 21, and the central compartment ( A plurality of through-holes 32 are formed on the side wall of the central compartment 21 so that the two reservoirs 22 separated by 21 are in communication with each other, and openings are formed on both sides, and have the same shape as the openings on both sides. The side plate 30 having the protrusion part 31 formed on one side wall is fixed to the opening part, and the water storage part 22 is sealed, and the sawtooth part 25 is formed on the bottom face, and a plurality of arc-shaped surfaces 23 laterally on the top face. ) Is formed, a plurality of slit holes 24 are formed in the arc-shaped surface 23, the discharge port so as to communicate with the reservoir 22 on one wall surface 26 is formed, the inclined protrusion 34 is formed such that the lower circumference of the branch rod inclination hole 29 is perpendicular to the inclination angle of the branch rod inclination hole 29, and the nut is closely attached to the inclined protrusion 34. Body (20) is fastened and fixed to the branch line rod (3) in the surface (35); is placed on the upper surface of the body 20, arc-shaped surface 41 in the same shape as the upper surface of the body (20) A plurality of wire mesh 40 is formed; is placed on the upper wire mesh 40, a plurality of arc-shaped surface 51 is formed in the same shape as the upper surface of the body, the bolt hole 52 before and after the arc surface 51 Non-woven fabric 50 having a plurality of); One end is connected to the outlet 26 of the body 20, the other end is exposed to the ground and the drain pipe 61 is sealed with a cap 62; Open drain pipe 61 Is connected to the other end of the ground ground for installing soft ground, characterized in that consisting of a mobile pump (60) for draining the water collected in the reservoir 22 of the body (20) In the future,

The publication No. 10-0601418 has an arc-shaped support surface 11 recessed in the front of the hollow square pillar with both sides open to contact the telegraph pole (6), the central portion of the back is recessed to the valve installation groove ( 12 is formed, the air injection hole 13 is formed in the center of the valve installation groove 12, the check valve 16 which can be injected only in one direction to the air injection hole 13 is fixed, and the check valve ( Nipple 17 is formed in the inlet of the 16 to facilitate binding with the air injection hose, the main body 10 is formed with a transport ring 15 on the upper surface; the hollow rectangular body to be inserted from both sides of the body 10 Has a locking end 22 protruding to the outside at one end is formed, the packing groove 23 is formed in the locking end 22, the packing 26 is inserted and fixed, the other end bent inward The jaw 21 is formed, the second stage support 30 is inserted through the opening formed with the locking end 22 is fixed plate ( 24 is a first stage support 20 is fixed to the bolt 25; has a hollow rectangular body to be inserted and fixed into the interior of the first stage support 20, the locking end 32 protruding outward at one end Is formed and is limited by the locking step 21 of the first stage support 20 to prevent the separation, and the valve installation space portion 31 separated by the partition wall 38 is formed at the other end, the partition wall 38 An air injection hole 37 is formed, a check valve 35 having a nipple 36 is fixed to the air injection hole 37, and a packing groove 33 is formed in the locking end 32 to form a packing 34. The two-stage support 30 is inserted and fixed; After the square hole 43 is formed in the center, the first stage support 20 and the second stage support 30 is inserted into the space portion 14 of the main body 10 Fixing cover 40 fixed to both ends of the main body 10; Wrap the telephone pole 6 and the main body 10 in the upper and lower parts of the main body 10 and the support plate 51 against the back of the main body 10 with a nut 52 It is characterized in that consisting of; 2, and only expandable modular utility pole geunga is described that,

Korean Patent Publication No. 10-0839832 includes a tension adjusting bolt 10 having one side connected to one end of a branch rod 05 through a tension adjusting bar 09;

It is connected to the branch line rod 05 by being screwed with a screw formed at the lower side of the other side of the tension adjusting bolt 10 and fixed to the branch line root 06 in a state of being fitted into a square hole formed at the center of the branch line root 06. And a slab nut 13 having an outer circumferential surface formed in a quadrangular shape so as to prevent rotation thereof, and wherein the tension of the stranded wire 02 is adjusted by the rotation of the tension adjusting bolt 10. It can be seen that the labor price is open to the public.

In the prior art, since the concrete price is economically distributed at high cost, such as manufacturing period and manufacturing cost, because the manual manufacturing of concrete price is performed manually, it is an object of the present invention to provide an automated manufacturing device for concrete price to reduce the cost of concrete price. will be.

The present invention has been made to solve the problems of the prior art, the input device (A), the molding device (B), the transfer device (C), the loading device (D), the moving device (E), the unloading device (F), separating device (G), pallet transfer device (H), packaging device (I) is composed of the present invention is to provide an automated production apparatus for concrete neighborhoods to manufacture the concrete price automatically and continuously in the central control box It is a means to solve the problem to achieve.

The present invention can be continuously produced according to the instructions of the central control box, can simultaneously produce a plurality of concrete working price in one operation, by producing a uniform quality working price to improve the production yield, can be supplied at a low price In other words, there is an advantage that can contribute to its dissemination.

In order to achieve the above object, the present invention is a raw material input conveyor (1), the input device (A) is a raw material is injected from the raw material input conveyor (1), and the raw material is placed in front of the input device (A) To the chain conveyor 400 to be transported together with the molding device (B) to be molded, and the pallet (4) located at the bottom to set the molded article formed in the molding device (B) to be placed in the molding device (B) The transporting device (C) configured, a stacking device (D) installed at the end of the transporting device (C), for stacking the molded product transferred from the transporting device (C) to the stacking cassette (9), and the stacking device (D). Is installed at the rear of the) to move the stacked cassette (9), and is installed at the front side of the mobile device (E) and positioned through the moving device (E) to be positioned at the bottom to settle the cured moldings Unloading device (F) for unloading from the stacked cassette (9) loaded with the pallet (4), and the unloading device Separating device (G) for separating the pallet from the pallet (4) located in the lower portion to place the molded article unloaded in (F), pallet transfer device is installed on one side of the separation device (G) to convey the separated pallet ( H), a packaging device (I) installed on the front of the separating device (G) for packing the separated molded article, and a concrete near-field automation manufacturing device consisting of a central control box 10 for controlling the operation of the devices It is about.

In the input device (A) of the present invention, as shown in Figure 5 the raw material from the raw material input conveyor (1) for supplying the mixed raw material by supplying the raw material supplied from each raw material storage tank with a stirrer Is injected into the hopper, and the hopper 2 is installed in the front side of the raw material supply conveyor 28 and the raw material supply conveyor 28 installed in the lower part of the hopper 2, as shown in FIG. Supply box 29 is advanced back and forth to serve to feed the raw material into the mold,

 Molding apparatus (B) is a pallet that is put into the mold and the upper part of the mold, a clamp for fixing the mold and the pallet, a vibration motor for vibrating the mold, and the mold to rotate (turn over) To convey to the conveying device,

The conveying device (C) is composed of a chain conveyor, and the lower part of the molding frame is composed of an up and down device for lowering the molded part at the upper part of the pallet.

The stacking device D and the unloading device F have the same structure, and serve to stack or unload the molded article on the conveyed pallet on the laminated cassette 9 provided on the chain conveyor 400 of the moving device E. It consists of a device for advancing up and down

Moving device (E) is installed over the back of the loading device (D) and the loading and unloading device (F), a plurality of stacked cassettes (9) installed on the chain conveyor 400 is moved, the forklift as necessary The laminated cassette 9 is moved to the curing chamber and cured, and then, it is returned to the moving device E again, and serves to unload to the unloading device F.

The chain conveyor 400 of the present invention has a width smaller than that of the pallet 4 having the same length and width, and the width of the second loading device tongs 532 of the "┛" shape and the width of the upper and lower steel plates 462 are chains. It is formed less than the width of the conveyor (400),

The second loading device tongs 532 of the "┛" shape is the same structure as the forklift shape of the forklift.

Separation device (G) is composed of an inverting device 700 and the pallet separator device 800 to invert (turn over) the molded product on the upper part of the unloaded pallet to separate the pallet and the molded product,

The pallet transfer device H is composed of pallet first, second and third transfer conveyors 13, 14 and 15 for transferring the pallet transferred from the pallet separator device 800 to the molding apparatus.

Packaging device (I) is a packaging device for molding molded products separated from the separator (G)

It consists of a packaging sorting device 1000 and a packaging machine 1300, the packaging sorting device 1000 is called an auto cover (Auto cugor) and the packaging sorting device is moved up and down by clamps installed on the left and right, so that four stages four rows 16 It is a function of bending with a string in a common paver so that the concrete base can be combined.

The devices are configured to operate by sending a signal set at a certain time from the central control box.

Techniques that are not described above are common knowledge widely used in the art, so they are not specifically described in the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a conventional concrete weighting mold, Figure 2 is a detailed view of the finished concrete weight of the present invention, Figure 3 is a general view of the concrete weight production apparatus of the present invention, Figure 4 is a detailed view of the input device of the present invention, Figure 5 is 6 to 8 is a detailed view of the molding apparatus of the present invention, Figures 9 to 10 is a detailed view of the transfer device of the present invention, Figures 11 to 12 are detailed views of the loading device of the present invention, Figures 13 to 14 are detailed views of the separator of the present invention, Figures 15 to 16 are detailed views of the pallet transfer device of the present invention, Figures 17 to 18 are detailed views of the packaging device of the present invention, Figures 19 to 20 are Fig. 21 is a detailed view of the concrete value and lamination of the present invention. Fig. 21 shows a detailed view of the feeding device of the present invention. , Central control box (10), laminated cassette (9), pallet first, second, third transfer conveyor (13, 14, 15), raw material conveyor driving motor (21), supply Roller driving motor 21-1, supply box roller 22, raw material supply conveyor 28, supply box 29, input device upper bar 200, input device support 210, cassette moving chain conveyor Drive motor 120, connecting chain 121, the first gear 122, cassette moving device support (not shown), the rotating shaft 131, chain conveyor drive gear 150, forming frame 300, clamp 310 ), Clamp drive motor (311), safety pin through hole (315), safety pin (320), vacuum motor (330), forming frame rotation motor 350, chain conveyor (400), chain conveyor support (410), chain conveyor drive Motor 420, chain conveyor driving motor connection chain 421, the first gear 422, the rotating shaft 430, chain conveyor driving gear 450, vertical driving motor 460, vertical cylinder 461, Up and down steel plate 462, guide pipe 470, guide shaft 471, loading device support 500, the first loading device 510, the first loading device vertical drive motor 520, vertical lifting chain 521 ), Up and down gear 522, the second loading device 530, the second loading device roller 531, the second loading Tooth clamp 532, chain rotary gear 533, two loading device drive unit 590, the second loading device drive rail 591, the second loading device forward and backward drive motor (not shown), reversing device 700, Inverting motor 710, inverting shaft 711, inverting center 712, inverting guide 720, inverting support 730, pallet separator device 800, pallet separator chain conveyor 810, pallet separator chain conveyor driving Motor 815, Pallet Separator Guide 820, Pallet Lifting Device 900, Pallet Lift Chain Lowering Cylinder 910, Pallet Lift Chain 920, Pallet Lift Chain Conveyor Drive Motor 925, Pavement Alignment Device ( 1000), pavement sorting device support (1100), pavement alignment up and down part 1110, up and down chain chain gear (1111), pavement up and down drive motor (1120), pavement alignment up and down drive gear (1121), pavement alignment up and down Rigid chain (1130), packaging up and down clamp 1150, packaging up and down clamp driving cylinder (1155), packaging machine (1300), feeding device (A), molding device (B), It can be seen that the conveying device (C), the loading device (D), the moving device (E), the unloading device (F), the separating device (G), the pallet conveying device (H), the packaging device (I).

As shown in Figs. 1 to 3, a raw material feeding conveyor 1, a feeding device A into which the raw material is fed from the raw material feeding conveyor 1, and a raw material placed and placed in front of the feeding device A Chain conveyor 400 which is transported together with the molding device (B) to be molded in the lower portion and the pallet (4) located in the lower portion so as to settle the molded article formed in the molding device (B) and the molding device (B) A transfer device (C) consisting of: a stacking device (D) installed at the end of the transfer device (C), and laminated with a laminated cassette (9) a molded article conveyed from the transfer device (C); D) installed on the rear of the moving device (E) for moving the stacking cassette (9), and installed on one side of the moving device (E) is moved through the moving device (E) in the lower part to settle the molded article To the unloading device F for unloading from the stacked cassette 9 loaded with the pallet 4 located thereon and to the unloading device F Separation device (G) for separating the pallet from the pallet (4) located at the bottom to set the unloaded molded article, a pallet transporting device (H) is installed on one side of the separation device (G) and conveys the separated pallet, It is a structure of a concrete neighborhood automation manufacturing apparatus consisting of a packaging device (I) is installed in the front of the separating device (G) for packaging the separated molded article, and the central control box 10 for controlling the operation of the devices.

As shown in Figures 4, 5 and 21, the input device (A) is a hopper (2) installed on the top of the input device 200 is located on the top of the input device support 210, and the hopper ( 2) a raw material supply conveyor 28 installed at the lower part of the supply source, a supply box 29 installed at the front side of the raw material supply conveyor 28, and a lower part of which is installed on both sides of the upper part of the hopper 2, The two raw material conveyor driving motor 21 connected to the raw material supply conveyor 28 and the supply box 29 are connected to both sides by a frame, and a plurality of supply box rollers 22 installed at the upper end of the frame, and The supply box roller 22 is located in the top bar 200 of the input device, the supply box roller driving motor 21-1 installed on the upper side of the hopper, and the supply box 29 is open at the bottom of the molding frame. As the upper and lower sides are moved back and forth, the raw materials are injected into the mold and at the same time play a role of leveling. Structure, and

As shown in Figure 6 to 8, the molding apparatus (B) is a two forming mold rotary motor 350 installed in the upper end of the input device 200 is located on the top of the input device support 210, and A rectangular parallelepiped molding frame 300 installed in connection with two shafts of the molding motor rotating motor 350 and an upper portion of the molding frame 300 is open and a groove is formed therein to form four root values. , Two clamps 310 installed at the front and rear center portions of the molding die 300, a clamp driving motor 311 positioned at the rear of the clamp 310 to operate the clamp 310, and the clamp 310. The safety pin 320 to fix the, and the lower central portion is spaced apart by a predetermined interval is composed of two vacuum motors 330 shaking the molding die 300,

As shown in Figure 9 to 10, the transfer device (C) is a chain conveyor 400 is driven in an endless track on the top of the chain conveyor support 410, and a chain conveyor driving motor installed at the center of one end ( 420, a rotating shaft 430 provided with a first gear 422 driven by a chavey bearing driving motor connecting chain 421 in the drive shaft gear of the chain conveyor driving motor 420, and the rotating shaft 430. Two chain conveyor driving gears 450 installed at both ends, an upper and lower plate 462 provided at the end of the hydraulic vertical cylinder 461 installed vertically at the center of the other one end, and the upper and lower cylinders 461 of Two guide pipes 470 installed on both sides and the two guide pipes 470 are connected to the upper portion of the guide pipe 470 is inserted into the guide pipe up and down and the other side of the guide shaft fixed to the upper and lower plate 462 ( 471),

As shown in Figure 11 to 12, the loading device (D) and the unloading device (F)

A loading device support 500 composed of a rectangular parallelepiped frame, a first loading device 510 installed on the loading device support 500 to move the loading device up and down, and built into the first loading device 510. It is composed of a second stacking device 530 to be laminated and lowered in the stacking cassette by going back and forth,

The first loading device 510 is a ship (ship) shape, and the vertical gear 522 connected to one side of the first loading device up and down driving motor 520 installed on the upper frame of the loading device support 500, The chain rotating gear 533 is installed in the lower center of the first loading device 510 and connected to the upper and lower gears 522 by the upper and lower chains 521, and installed horizontally inside both sides of the loading device 510. It consists of a second loading device drive rail (591),

  The second loading device 530 is a forklift shape of a forklift, and is connected to the second loading device driver 590 installed on both sides of the upper part of the first loading device 510 and the second loading device driver 590. "Second loading device clamp 532 of the shape,

 The second loading device driving unit 590 is installed in the lower portion of the second loading device forward and backward driving motor (not shown), and the second loading device driving unit 590, the second loading device forward and backward driving motor (not shown) It is composed of a plurality of second loading device roller 531 which is moved forward and backward by a chain (not shown) connected to the back and forth, and serves as a guide guide when moving forward and backward.

As shown in Figure 15 to 16, the moving device (E) is a device for moving the stacked cassette (9), the chain conveyor 400 is driven in an endless track on top of the cassette moving device support (not shown) and , A rotating shaft 131 provided with a cassette moving chain conveyor driving motor 120 installed at one side, and a first gear 122 driven by a connecting chain 121 to a drive shaft gear of the cassette moving chain conveyor driving motor 120. ) And two chain conveyor driving gears 150 installed at both ends of the rotary shaft 131,

As shown in Figs. 13 to 14, the separating device G is a device for inverting (turning over) the pallet 4 provided on the lower part of the molded product and separating the pallet and the molded product. The inverting device 700 and the inverting device Pallet separator device 800 for inverting and moving the pallet (4) located in the upper side to the side, and the pallet (4) handed over from the pallet separator device 800 to take over the pallet transfer device (H) It consists of a facet separator guide 820,

The reversing apparatus 700 includes an inversion center 712 provided with an inversion motor 710 installed on one side, an inversion axis 711 connected to the inversion motor 710, and a center of the inversion center 712. An inverting guide 720 having an industrial shape and an inverting support 730 having a “S” shape for supporting the inverting device.

The pallet separator device 800 is installed on the front side of the inverting device 700 and is inverted to move the pallet 4 located on the upper side to the pallet taking over device 900 installed on one side, and the pallet separator chain conveyor 810. And a pallet separator guide 820 horizontally connected to the pallet separator chain conveyor 810, and a pallet separator chain conveyor driving motor 815 for driving the pallet separator chain conveyor 810.

The pallet takeover device 900 is installed on one side of the pallet separator device 800, and is an apparatus for transferring the pallet 4 taken over by the pallet separator device 800 to the pallet transfer device (H),

A pallet lift chain 920 for moving the pallet 4 forward and backward, and a pallet lift chain drive motor 925 and the pallet lift chain 920 connected by a chain to drive the pallet lift chain 920. It consists of a pallet lift chain up and down cylinders 910 connected vertically to a central frame (not shown) supporting the,

The pallet transfer device (H) is a device for transferring the pallet 4 transferred from the pallet taking over device (900) to the molding apparatus (B), and three devices are connected and installed to move at three right angles. The structure of the conveying device (C) is the same structure as the conveying device (C) that is driven in an endless track on the top of the chain conveyor support 410, the chain conveyor 400, the chain conveyor driving motor installed in the center of one end end 420, a rotation shaft 430 provided with a first gear 422 driven by a chain conveyor driving motor connecting chain 421 on the drive shaft gear of the chain conveyor driving motor 420, and the rotation shaft 430. It consists of two chain conveyor driving gear (450) installed at both ends of the,

As shown in Fig. 17 to Fig. 18, the packaging device (I) is a packaging arranging device (1000) for aligning the molded article separated in the separating device (G), and a conventional packaging device for packing the molded article in the packaging alignment Consists of,

The packaging sorting apparatus 1000 is a packaging sorting device support 1100 provided in a rectangular parallelepiped frame, the packaging sorting device up and down portion 1110 which is located up and down inside the packaging sorting device support 1100, and the packaging sorting One side is connected to a packaged upper and lower portion driving motor 1120 installed on the packaging alignment device support 1100 and the drive gear connected to the packaged upper and lower portion driving motor 1120 to raise and lower the upper and lower portions 1110. And the other side is the pavement alignment up and down chain 1130 connected to the up and down chain gear 1111 installed on the pavement alignment up and down portion 1110,

The pavement alignment lowering part 1110 is a rectangular parallelepiped shape composed of a frame, and a vertical alignment chain gear 1111 installed at an upper center portion, and a pavement alignment raising and lowering clamp 1150 installed at both lower sides to operate outward to fix the molded product. And, it can be seen that it is composed of a hydraulic packaging alignment up and down clamp driving cylinder 1155 for driving the packaging alignment up and down clamp 1150.

If you explain the operation,

First stage; When the raw material is introduced into the hopper 2 of the feeding device A from the raw material input conveyor 1, the raw material conveyor driving motor 21 is operated to operate the raw material supply conveyor 28 to feed the raw material from the hopper 2. When the feed box 28 is inserted into the feed box 29 located at the front lower portion of the raw material feed conveyor 28, the feed box roller driving motor 21-1 is operated to supply the frame connected to both sides of the feed box 29. The supply box roller 22 installed at the distal end is advanced to the molding die 300 along the top bar 200 of the input device, and is moved back and forth to the upper portion of the molding die 300 (in this case, by the forward and backward movement of the supply box 29). The raw material is introduced into the mold 300 and at the same time flattening the top. Two vacuum motors 330 installed at the bottom of the mold 300 are operated. Insertion) (see Fig. 21)

When the raw material is completely filled in the mold by vibration, the pallet 4 is transferred to the upper part of the mold through the first, second, and third conveying conveyors 13, 14, and 15 of the pallet conveying apparatus H installed on one side. When positioned, the two clamp driving motors 311 installed on the front and rear surfaces of the molding frame 300 are operated to drive the clamp 310 to fix the molding frame 300 and the pallet 4, and then the safety pins 320. After the clamp 310 is fixed in close contact with each other, the molding die rotating motor 350 installed on both sides of the clamp 300 is operated to rotate the mold 300 by 180 ° (upside down), and then The hydraulic up-down cylinder 461 located at the lower side is raised, and the up-down steel plate 462 located at the top of the up-down cylinder 461 is in close contact with the bottom of the pallet 4, and then (up and down cylinder 461). The guide shaft 471 connected to the upper and lower steel plates 462 is installed together on both sides of the lifter, and the safety pin 320 is dismantled, and the clamp driving motor 311. By operating in reverse after the separation and the forming die 300, the molded article and the pallet (4),

Two steps; Lowering the upper and lower cylinders 461 in reverse, the pallet 4 located on the upper and lower plates 462 located on the upper and lower cylinders 461, and the molded product located on the upper side of the pallet 4 are supported by a chain conveyor support ( After turning over the chain conveyor 400 driven to the upper end of the 410, (the width of the upper and lower plate 462 is less than the width of the chain conveyor 400, the pallet 4 is the chain conveyor 400) If the pallet 4 located above the upper and lower steel plates 462 is lowered between the chain conveyors 400, the pallets 4 larger than the width of the chain conveyors 400 are positioned at the top of the chain conveyors 400. At the same time, the molded article located at the top of the pallet 4 is turned over to the chain conveyor 400.)

The chain shaft driving motor 420 is operated to rotate the shaft 430 provided with a first gear 422 driven by the chae conveyor driving motor connecting chain 421 in the drive shaft gear of the chain conveyor driving motor 420, Two chain conveyor driving gears 450 installed at both ends of the rotary shaft 430 are rotated together to drive the chain conveyor 400 meshed with the chain conveyor driving gear 450 to be transferred to the chain conveyor 400. When the molded article located in the upper part of 4) is transferred to the lower part of the stacking device D laminated on the lamination cassette 9,

Three steps; The second loading device tongs 532 (less in width than the chain conveyor 400) having the same "┛" shape as the fork of the forklift truck connected to the second loading device driving rail 591 of the loading device D are chain conveyors ( 400 and the first loading device 510 connected to the second loading device drive rail 591 when the molded article located on the upper portion of the pallet 4 arrives at the upper portion of the second loading device tongs 532. The first loading device up and down driving motor 520 of the drive unit is driven to operate the up and down chain 521 connected to the first loading device up and down driving motor 520 to position the first loading device and the second loading device. After raising to the stacking cassette stacking position, the second stacking device forward and backward driving unit 590 is operated (with a molded article placed on the top of the pallet 4 on the top of the second stacking device tongs 532). The second loading device roller 531 connected to the second loading device forward and backward driving unit 590 by a chain (not shown) is driven to operate the second loading device 530. After advancing), it is advanced along the second loading device drive rail 591 to the stacking cassette 9 of the moving loading device F installed at the rear, where the second loading device roller 531 serves as a guide guide. After laminating to the laminated cassette 9, and filling the molded article located on the top of the pallet 4 in the laminated cassette 9, the cassette moving chain conveyor driving motor 120 is operated to operate the chain conveyor 400 Transfer the stacked cassette 9 located at the upper part of the stack so that the empty stacked cassette 9 is located at the rear of the loading apparatus, and then the transferred stacked cassette 9 is transferred to the curing chamber by a forklift, and then 2 to 3 After curing at room temperature for one day, and then again placed on the chain conveyor 400 of the moving device (E), the cassette moving chain conveyor driving motor 120 is operated to position the rear of the unloading device (F), and then loaded The same unloading device F as the device D is operated in reverse, so that the sieve of the separating device G After the transfer to the conveyor 400, the molded article located on the top of the pallet (4) arrived by the chain conveyor 400 of the separating device (G) to the reversing device 700 by the operation of the reversing motor 710. "At the same time the inversion guide 720 provided in the shape of the shape is rotated 180 °, the molded article located on the upper portion of the pallet (4) located in the inversion guide 720 is inverted (upside down) is located on the chain conveyor 400 to move forward It is turned over to the pallet separator device 800, the pallet 4 located on the upper side is transferred to the side, the molded article is advanced by the chain conveyor 400 is transferred to the packaging device (I), the pallet 4 is pallet As the separator chain conveyor 810 moves to the side by operating the separator chain conveyor driving motor 815, the pallet separator guide 820 horizontally connected to the pallet separator chain conveyor 810 pushes the pallet 4 together with the side. Above The pallet conveying device (H) is transferred to one pallet turning device (900), and after the handover to the pallet turning device (900), the hydraulic pallet lifting chain lifting cylinder (910) is turned over to the pallet conveying device (H). After raising the hydraulic pallet lift chain lowering cylinder 910 to the same position as the same position, the pallet lift chain driving motor 925 is advanced to transfer the pallet 4 to the pallet transfer device H. Next, the pallet transfer device (H) is a chain conveyor driving motor 420 is operated to transfer the pallet 4 transferred from the pallet taking over device 900 to the molding apparatus (B), the chain conveyor driving motor 420 Rotating shaft 430 having a first gear 422 driven by a chae conveyor drive motor connecting chain 421 in the drive shaft gear of the drive shaft; and two chain conveyor driving gears 450 installed at both ends of the rotating shaft 430. ) Is rotated together the chain conveyor sphere The chain conveyor 400 engaged with the gear 450 is driven to be transferred to the molding apparatus B, and the molded article is transferred to the packaging apparatus I by the chain conveyor 400 to arrange the packaging arrangement of the packaging apparatus I. Arriving at (1000), the packaging connected to the gear and the vertical chain gear 1111 of the upper and lower lower drive motor 1120 by the operation of the package lower and upper drive motor 1120 of the packaging alignment device support 1100. Both sides of the molded product are moved to the long alignment up and down clamp 1150 by the operation of the hydraulic packing alignment up and down clamp driving cylinder 1155 installed on both sides by lowering the packing alignment up and down part 1110 by the alignment up and down chain 1130. After the fixing, the package lowering and lowering drive motor 1120 is reversed, the molded article and the packaging alignment lowering unit 1110 are raised together, and when the next molded article arrives, the above operation is repeated, and the packaging alignment is repeated. Lowering the steel part 1110 and forming two layers of four molded articles After stacking, the packing alignment lowering part 1110 is lowered again to raise the two-layer molded products together by four, and when the next molded product arrives again, the above-described operation is repeated to lift the three-layer molded products together by four. After repeating the operation to laminate the molded article in four layers of four together, it is an operation method of packaging (banding) the four molded products by transferring to a conventional packaging machine.

  1 is a conventional concrete mold close mold.

  Figure 2 is a concrete close-up finished product of the present invention.

  Figure 3 is an overall view of the concrete production apparatus of the present invention.

  Figure 4 is a detailed view of the input device of the present invention.

  5 is a detailed view of a raw material supply device of the present invention.

  6 to 8 is a detailed view of the molding apparatus of the present invention.

  9 to 10 is a detailed view of the transfer apparatus of the present invention.

  11 to 12 is a detailed view of the loading device of the present invention.

  13 to 14 are detailed views of the separator of the present invention.

  15 to 16 is a detailed view of the pallet transport apparatus of the present invention.

  17 to 18 is a detailed view of the packaging apparatus of the present invention.

  19 to 20 is a concrete closer and laminated view of the present invention.

  Figure 21 is a detailed view of the input device of the present invention

 Explanation of symbols in the drawings

   Raw material feeding conveyor (1), hopper (2), pallet (4), handrail (5), staircase (6), central control box (10), laminated cassette (9), pallet first, second, third transfer Conveyors (13,14,15),

 Raw Material Conveyor Drive Motor 21, Supply Box Roller Drive Motor 21-1, Supply Box Roller 22, Raw Material Supply Conveyor 28, Supply Box 29, Input Device Upper Bar 200, Input Device Support (210), cassette moving chain conveyor driving motor 120, connecting chain 121, the first gear 122, cassette moving device support (not shown), rotary shaft 131, chain conveyor driving gear 150, molding Frame 300, clamp 310, clamp drive motor 311, safety pin hole 315, safety pin 320, vacuum motor 330, molding frame rotation motor 350, chain conveyor 400, chain conveyor Support 410, chain conveyor driving motor 420, chain conveyor driving motor connection chain 421, the first gear 422, rotary shaft 430, chain conveyor driving gear 450, up and down driving motor 460 Up and down cylinder 461, up and down plate 462, guide pipe 470, guide shaft 471, loading device support 500, the first loading device 510, the first loading device up and down driving motor ( 520, up and down chain 521, up and down gear 522, the second loading device 530 , Second loading device roller 531, second loading device tongs 532, chain rotating gear 533, second loading device drive unit 590, second loading device drive rail 591, before and after the second loading device True drive motor (not shown), reversing device 700, reversing motor 710, reversing shaft 711, reversing center 712, reversing guide 720, reversing support 730, pallet separator device 800 Pallet separator chain conveyor 810, Pallet separator chain conveyor driving motor 815, Pallet separator guide 820, Pallet chain system 900, Pallet chain chain lowering cylinder 910, Pallet chain 920, Pallet chain chain conveyor drive motor (925), packaging alignment device (1000), packaging alignment device support (1100), packaging alignment up and down portion (1110), vertically lowered chain gear (1111), packaging teeth up and down drive motor (1120) , Packing up / down driving gear 1121, packing up / down down chain (1130), packing up / down clamp (1150), packing up / down clamp driving cylinder (1155), packing 1300, feeding device (A), forming device (B), conveying device (C), loading device (D), moving device (E), unloading device (F), separation device (G), pallet transfer device (H), packaging device (I).

Claims (11)

delete A raw material input conveyor 1, an input device A into which the raw material is input from the raw material input conveyor 1, a molding apparatus B formed on the front surface of the input device A, and molded into the input material; A transfer device (C) composed of a chain conveyor (400) positioned at a lower portion of the molding apparatus (B) and conveyed together with a pallet (4) positioned at a lower portion so as to set up a molded article molded in the molding apparatus (B), and the transfer A stacking device (D) installed at the end of the stacking device (C) and laminated on the stacking cassette (9) the molded article conveyed from the transporting device (C), and a stacking cassette (9) installed at the rear of the stacking device (D). A stacking device (E) and a pallet (4) located at the bottom to settle the cured molded product is installed on the front side of the moving device (E) and moved through the moving device (E). Unloading device (F) to be unloaded from the cassette (9) and the molded article unloaded from the loading and unloading device (F) Separation device (G) for separating the pallet from the pallet (4) located in the portion, a pallet transfer device (H) for transporting the separated pallet is installed on one side of the separation device (G), and the separation device (G) In the concrete neighborhood automation manufacturing device consisting of a packaging device (I) installed on the front of the packaging to separate the molded product, and the central control box 10 for controlling the operation of the devices, the input device (A) is The hopper (2) is installed on the top of the input device 200 is placed on the top of the device support 210, the raw material supply conveyor (28) installed in the lower portion of the hopper 2, the raw material supply conveyor (28) of Supply box 29 is installed on the front and the bottom is open, two raw material conveyor drive motors 21 are installed on both sides of the upper portion of the hopper 2 and connected to the raw material supply conveyor 28 by a chain, the supply box 29, both sides are connected by a frame, and the upper end of the frame And a plurality of supply box rollers 22 and the supply box rollers 22 are located on the top bar 200 of the input device, and include a supply box roller driving motor 21-1 installed on the upper side of the hopper. Concrete price automation manufacturing apparatus, characterized in that. The method of claim 2, wherein the molding apparatus (B) is the two forming mold rotary motor 350 is installed on the top of the input device 200 is placed on the top of the input device support 210, and the two molding motor rotation motor A rectangular parallelepiped forming die 300 and connected to the shaft of 350 and the forming die 300 are open at an upper portion thereof, and grooves are provided therein to form four root values, and a forming die 300. Two clamps 310 installed at the front and rear central portions of the clamp 310, a clamp driving motor 311 positioned at the rear of the clamp 310 to operate the clamp 310, and a safety pin 320 for fixing the clamp 310. )and, Concrete near-field automation manufacturing apparatus, characterized in that it comprises two vacuum motors 330 which are installed spaced apart at regular intervals to shake the molding frame 300. The method according to claim 2, The transfer device (C) is a chain conveyor 400 is driven in an infinite orbit on the upper portion of the chain conveyor support 410, a chain conveyor driving motor 420 installed in the center of one end, and the chain A rotating shaft 430 having a first gear 422 driven by a chae conveyor driving motor connecting chain 421 in a drive shaft gear of the conveyor driving motor 420, and two chains provided at both ends of the rotating shaft 430. Conveyor drive gear 450, Up and down plate 462 provided at the end of the hydraulic up and down cylinder 461 is installed vertically in the center of the other end, two guide pipes 470 provided on both sides of the up and down cylinder 461, and the two Is connected to the top of the guide pipe 470 is inserted into the guide pipe 470 up and down and the other side of the concrete is characterized in that it comprises a guide shaft 471 fixed to the upper and lower steel plate 462 Automated manufacturing equipment. The stacking device (D) of claim 2, wherein the stacking device (D) includes a stacking device support (500) composed of a rectangular parallelepiped frame, and a first loading device (510) installed on the stacking device support (500) to move the stacking device up and down. And a second loading device 530 which is built in the first loading device 510 and is stacked and lowered on the stacked cassette by moving forward and backward.     The first loading device 510 is a ship (ship) shape, and the vertical gear 522 connected to one side of the first loading device up and down driving motor 520 installed on the upper frame of the loading device support 500, The chain rotating gear 533 is installed in the lower center of the first loading device 510 and connected to the upper and lower gears 522 by the upper and lower chains 521, and installed horizontally inside both sides of the loading device 510. It consists of a second loading device drive rail (591),   The second loading device 530 is a forklift shape of a forklift, and is connected to the second loading device driver 590 installed on both sides of the upper part of the first loading device 510 and the second loading device driver 590. "Second loading device clamp 532 of the shape, The second loading device driving unit 590 is installed in the lower portion of the second loading device forward and backward driving motor (not shown), and the second loading device driving unit 590, the second loading device forward and backward driving motor (not shown) And back and forth by a chain (not shown) connected to the), and the concrete near-road automation manufacturing apparatus, characterized in that it comprises a plurality of second loading device rollers (531) acting as a guide guide when moving forward and backward. The method of claim 2, wherein the moving device (E) is a device for moving the stacked cassette (9), a chain conveyor (400) driven on the upper end of the cassette moving device support (not shown) and a cassette provided on one side A rotating shaft 131 provided with a moving chain conveyor driving motor 120, a first gear 122 driven by a connecting chain 121 in a drive shaft gear of the cassette moving chain conveyor driving motor 120, and the rotating shaft. Concrete conveyor automation manufacturing apparatus characterized in that it comprises a two chain conveyor driving gear (150) installed at both ends of the (131). The apparatus of claim 2, wherein the separating device (G) is a device for separating (turning) the pallet (4) installed on the lower part of the molded product and separating the pallet from the molded product. Pallet separator device 800 for moving the pallet 4 located on the side to the side, and facet separator guide 820 for taking over the pallet 4 transferred from the pallet separator device 800 to the pallet transfer device (H). The inverting apparatus 700 includes an inversion center 712 provided with an inversion motor 710 installed on one side, an inversion axis 711 connected to the inversion motor 710, and the inversion center 712. ) Automatically manufactured concrete close-up automation, characterized in that it comprises a reversal guide 720 provided in a "工" shape with a center, and a "s" shaped reversal support 730 for supporting the reversing device Device. 8. The pallet separator of claim 7, wherein the pallet separator device 800 is installed on the front surface of the inverter 700 and is inverted to move the pallet 4 positioned on the upper side to the pallet takeover device 900 provided on one side. Including a chain conveyor 810, a pallet separator guide 820 horizontally connected to the pallet separator chain conveyor 810, and a pallet separator chain conveyor driving motor 815 for driving the pallet separator chain conveyor 810. Concrete work automation equipment characterized in that it is configured. The pallet transfer device 900 is installed at one side of the pallet separator device 800, and transfers the pallet 4 taken over from the pallet separator device 800 to the pallet transfer device H. As a device, a pallet lift chain 920 for moving forward and backward of a conveyed pallet 4, a pallet lift chain conveyor driving motor 925 and the pallet lift chain connected by a chain to drive the pallet lift chain 920. Concrete pallet automation apparatus characterized in that it comprises a pallet lift chain lowering cylinder 910 connected vertically to a central frame (not shown) supporting the 920. The apparatus of claim 2, wherein the pallet transfer device (H) is a device for transferring the pallet (4) transferred from the pallet takeover device (900) to the molding device (B), and the three devices are connected to move at three right angles. The structure is the same as the transfer device (C) is driven in an endless track on the upper portion of the chain conveyor support 410, the structure of the conveyor (400), in the center of one end end A rotating shaft 430 provided with a chain conveyor driving motor 420 installed therein, and a first gear 422 driven by a chain conveyor driving motor connecting chain 421 in the drive shaft gear of the chain conveyor driving motor 420; Approximate automation production apparatus for concrete, characterized in that it comprises a two chain conveyor driving gear 450 installed at both ends of the rotary shaft (430). The method of claim 2, wherein the packaging device (I) comprises a packaging sorting device 1000 for aligning the molded article separated in the separating device (G), and a conventional packaging device for packaging the molded article in the packaging alignment, the packaging The alignment apparatus 1000 includes a packaging alignment device support 1100 having a rectangular parallelepiped frame, a packaging alignment up / down part 1110 positioned up and down inside the packaging alignment device support 1100, and the packaging alignment up / down part One side is connected to a pouch upper and lower part driving motor 1120 installed on the pavement sorting device support 1100 and a drive gear connected to the pavement upper and lower part driving motor 1120 to raise and lower the 1110. One side is a pavement alignment up and down chain 1130 connected to the up and down chain chain gear 1111 installed on the pavement alignment up and down portion 1110, and the pavement alignment up and down portion 1110 is a rectangular parallelepiped shape consisting of a frame, the upper central portion Installed on Rigid chain gear 1111, pavement alignment lowering clamp 1150 installed at both sides of the lower side and operated outward to fix the molded product, and pavement alignment raising and lowering clamp for hydraulic driving the pavement alignment raising and lowering clamp 1150 Concrete neighborhood automation manufacturing apparatus characterized in that it comprises a drive cylinder (1155).

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