CN215434217U - Side napping mechanism for producing PC (polycarbonate) components - Google Patents

Abstract

The utility model discloses a side roughening mechanism for PC component production, which comprises a roughening machine, a ferry vehicle and a conveying mechanism, wherein a track is arranged on the ground below the conveying mechanism, the direction of the track is perpendicular to the direction of the conveying mechanism, the ferry vehicle moves on the track, the roughening machine is positioned on the side surface of the conveying mechanism, the roughening machine is positioned above the track, the conveying mechanism comprises a plurality of conveying piles and a conveying plate, movable pulleys are arranged on the tops of the conveying piles, the conveying plate is arranged on the pulleys, a lifting mechanism is arranged on the ferry vehicle, and the lifting mechanism comprises a plurality of lifting piles. The side surface galling mechanism for producing the PC component can directly galling the PC component through the galling machine and the ferry vehicle which are arranged on the side surface without turning the direction of the PC component, thereby improving the efficiency and saving the time.

Description

Side napping mechanism for producing PC (polycarbonate) components

Technical Field

The utility model relates to the technical field of PC component production, in particular to a side surface galling mechanism for PC component production.

Background

In the production process of the PC member laminated slab, the surface of concrete needs to be roughened to ensure that the laminated slab is well combined with post-cast floor concrete, and a plurality of manufacturers adopt a roughening machine to roughen the PC member. The working principle of the napping machine is as follows: the galling machine is fixed on the production line, and when the laminated slab passes through the lower part of the laminated slab, the electric push rod pushes the tool rest of the galling machine to descend, the broach is in contact with the surface of concrete, and the groove is pulled out of the surface of the concrete through the self gravity, so that the galling effect is achieved.

The surface of the PC component will have exposed surface steel bars, usually in a row, which will pass between the teeth of the napper during production when the steel bars and the napper are oriented perpendicular to each other. When the directions of the steel bar and the galling machine are parallel to each other, the steel bar can block the sawteeth of the galling machine, so that the galling machine cannot work and can only turn the PC component. It is very time and energy consuming and reduces efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a side roughening mechanism for producing a PC (polycarbonate) component, which can directly roughen the PC component through a roughening machine and a ferry vehicle arranged on the side without turning the direction of the PC component, can improve the efficiency and save the time.

The technical purpose of the utility model is realized by the following technical scheme: the utility model provides a PC component production is with side napping mechanism which characterized in that: including napping machine, ferry vehicle and transport mechanism, the subaerial track that is provided with of transport mechanism below, orbital direction with transport mechanism direction mutually perpendicular, the ferry vehicle moves on the track, the napping machine is located the transport mechanism side, the napping machine is located the track top, transport mechanism includes a plurality of transportation stake and transport plate, be equipped with movable pulley on the transportation stake top, the transport plate is arranged in on the pulley, be equipped with elevating system on the ferry vehicle, elevating system includes a plurality of lift stake.

Through the technical scheme, when the direction of the exposed steel bars on the PC component is perpendicular to the conveying direction of the conveying mechanism, the pulleys on the conveying piles rotate, the conveying plate and the PC component on the conveying plate are conveyed to the position above the track of the ferry vehicle together, and the position is called as an initial position. Then the lifting mechanism on the ferry vehicle is lifted to jack up the transport plate and the PC component on the transport plate. And adjusting the napping machine to a proper napping position, moving the ferry vehicle to the napping machine along the track after the transport plate leaves the transport pile, moving the PC component on the transport plate and the napping machine relatively, and napping the PC component by the napping machine. After the galling is finished, the PC component is conveyed to the upper part of the initial position by the ferry vehicle, the lifting mechanism on the ferry vehicle descends, the conveying plate is conveyed to the initial position, the pulley on the conveying pile rotates, the conveying plate and the PC component on the conveying plate are conveyed away, and the next procedure is executed.

The ferry vehicle may transport the transport plate and the PC component thereon. The napper is positioned on the side surface of the conveying mechanism and above the track. When the ferry vehicle conveys the PC component, the napping machine can nappe the unset PC component. The pulley on the transportation pile rotates to drive the transportation plate to move linearly, so that the PC component moves. The ferry vehicle is provided with a lifting mechanism, and the lifting mechanism comprises a plurality of lifting piles. The ferry vehicle may transport the transport plate and the PC components thereon.

The utility model is further configured to: the napping machine comprises sawteeth, an installation rod, a connecting rod, a rotary column, a support column and a cylinder, wherein the sawteeth are fixedly installed on the installation rod, the connecting rod is provided with a plurality of roots, and the connecting rod is fixedly connected with the rotary column and the installation rod.

Through above-mentioned technical scheme, the napping machine can give the PC component napping, increases the roughness of PC component, improves the viscous force.

The utility model is further configured to: the connecting rod is connected what install the pole both ends is called the connecting main rod, the connecting rod is connected what is called in the middle of the installation pole connects the auxiliary rod, the connecting main rod with connect the auxiliary rod and be the cuboid form, just the connecting main rod is than connect the auxiliary rod thick.

Through above-mentioned technical scheme, many connecting rods can strengthen the intensity of napping machine, strengthen the joint strength of installation pole and rotation post, prevent not hard up or fracture.

The utility model is further configured to: the both ends swivelling joint of column spinner the pillar, the equal fixedly connected with rotary auxiliary rod in both ends of column spinner, rotary auxiliary rod is kept away from the one end of column spinner is connected the piston rod of cylinder.

Through above-mentioned technical scheme, the cylinder starts, and the piston rod of cylinder stretches out, promotes the rotating pair pole for the column spinner rotation of being connected with the rotating pair pole drives the sawtooth and rotates, through the extension length of the piston rod of control cylinder, can control the turned angle of sawtooth, thereby decides the napping degree of depth of napping machine.

The utility model is further configured to: the cylinder is fixedly arranged on a mounting stick, and the mounting stick is rotatably connected with the support.

Through the technical scheme, the air cylinder can rotate in a small range due to the rotation of the auxiliary rotating rod. The cylinder is mounted on the rotatable mounting stick so that the cylinder can rotate.

The utility model is further configured to: the saw teeth are provided with a plurality of saw teeth, gaps are formed among some saw teeth, and the size of each gap is the same as that of the steel bars exposed on the PC component plate.

Through above-mentioned technical scheme, the reinforcing bar can hinder the work of napping of sawtooth, and the clearance between some sawtooth can let the reinforcing bar that exposes on the PC component board pass through.

The utility model is further configured to: a single one of said transport plates corresponds to at least 6 transport piles.

Through above-mentioned technical scheme, single transport plate corresponds at least 6 transport stake. Too few transport piles can cause the transport plate to fall off during transport.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a side view of the present invention.

The reference numbers in the figures mean: 1. a napping machine; 2. a ferry vehicle; 3. a track; 4. a transport mechanism; 5. transporting the piles; 6. a transport plate; 7. lifting piles; 8. saw teeth; 9. mounting a rod; 10. a connecting rod; 11. a spin column; 12. a pillar; 13. a cylinder; 14. connecting the main rod; 15. connecting the auxiliary rod; 16. a rotary sub-rod; 17. and (5) installing a stick.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

The present invention is explained below with reference to fig. 1 to 2.

A side napping mechanism 1 for producing PC components comprises a napping machine 1, a ferry vehicle 2 and a conveying mechanism 4. When the direction of the exposed steel bars on the PC member and the transport direction of the transport mechanism 4 are perpendicular to each other, the pulleys on the transport pile 5 are rotated, and the transport plate 6 and the PC member on the transport plate 6 are transported together above the rail 3 of the ferry car 2, which position is referred to as an initial position. The lift mechanism on the ferry vehicle 2 is then raised to jack up the transport plate 6 and the PC component on the transport plate 6. And adjusting the napping machine 1 to a proper napping position, moving the ferry vehicle 2 to the napping machine 1 along the track 3 after the transport plate 6 leaves the transport pile 5, relatively moving the PC component on the transport plate 6 and the napping machine 1, and napping the PC component by the napping machine 1. After the galling is finished, the PC component is conveyed to the position above the initial position by the ferry vehicle 2, the lifting mechanism on the ferry vehicle 2 descends, the conveying plate 6 is conveyed to the initial position, the pulley on the conveying pile 5 rotates, the conveying plate 6 and the PC component on the conveying plate 6 are conveyed away, and the next procedure is executed.

The ground below the transport mechanism 4 is provided with a track 3, the direction of the track 3 is vertical to the direction of the transport mechanism 4, and the ferry vehicle 2 moves on the track 3. The ferry vehicle 2 may transport the transport plate 6 and the PC component thereon. The napping machine 1 is positioned on the side surface of the conveying mechanism 4, and the napping machine 1 is positioned above the track 3. When the ferry vehicle 2 conveys the PC component, the napping machine 1 can nappe the unset PC component. The conveying mechanism 4 comprises a plurality of conveying piles 5 and conveying plates 6, movable pulleys are arranged at the top ends of the conveying piles 5, and the conveying plates 6 are arranged on the pulleys. The pulley on the transport pile 5 rotates to drive the transport plate 6 to move linearly, so that the PC component moves. The ferry vehicle 2 is provided with a lifting mechanism which comprises a plurality of lifting piles 7. The ferry vehicle 2 may carry the transport plate 6 and the PC components thereon.

Napping machine 1 includes sawtooth 8, installation pole 9, connecting rod 10, column spinner 11, pillar 12 and cylinder 13, and sawtooth 8 fixed mounting is on installation pole 9, and connecting rod 10 has a plurality of, and connecting rod 10 fixed connection column spinner 11 and installation pole 9. The saw teeth 8 are provided with a plurality of saw teeth, gaps are arranged among some saw teeth 8, and the size of the gaps is the same as that of the exposed steel bars on the PC component plate. The reinforcing bars may hinder the roughening work of the saw teeth 8, and some of the gaps between the saw teeth 8 may allow the reinforcing bars exposed on the PC board to pass through. The connecting rod 10 is connected with two ends of the mounting rod 9 and is called a main connecting rod 14, the connecting rod 10 is connected with a sub connecting rod 15 in the middle of the mounting rod 9, the main connecting rod 14 and the sub connecting rod 15 are both rectangular, and the main connecting rod 14 is thicker than the sub connecting rod 15. The connecting rods 10 can enhance the strength of the napper 1, enhance the connection strength of the mounting rod 9 and the rotating column 11, and prevent looseness or breakage. The connecting rod 10 is connected with two ends of the mounting rod 9 and is called a main connecting rod 14, the connecting rod 10 is connected with a sub connecting rod 15 in the middle of the mounting rod 9, the main connecting rod 14 and the sub connecting rod 15 are both rectangular, and the main connecting rod 14 is thicker than the sub connecting rod 15. The connecting rods 10 can enhance the strength of the napper 1, enhance the connection strength of the mounting rod 9 and the rotating column 11, and prevent looseness or breakage. The two ends of the rotary column 11 are rotatably connected with the supporting columns 12, the two ends of the rotary column 11 are both fixedly connected with the rotary auxiliary rods 16, and one end of each rotary auxiliary rod 16, which is far away from the rotary column 11, is connected with the piston rod of the air cylinder 13. The cylinder 13 starts, and the piston rod of cylinder 13 stretches out, promotes the rotatory auxiliary rod 16 for the column spinner 11 who is connected with rotatory auxiliary rod 16 is rotatory, drives sawtooth 8 and rotates, and through the extension length of the piston rod of control cylinder 13, can control the turned angle of sawtooth 8, thereby decides the napping degree of depth of napping machine 1. The cylinder 13 is fixedly arranged on the mounting rod 17, and the mounting rod 17 is rotatably connected with the support 12. Since the sub-lever 16 rotates, the cylinder 13 also rotates by a small amount. The cylinder 13 is mounted on a rotatable mounting bar 17 so that the cylinder 13 can rotate. The saw teeth 8 are provided with a plurality of saw teeth, gaps are arranged among some saw teeth 8, and the size of the gaps is the same as that of the exposed steel bars on the PC component plate. The reinforcing bars may hinder the roughening work of the saw teeth 8, and some of the gaps between the saw teeth 8 may allow the reinforcing bars exposed on the PC board to pass through. The napping machine 1 can nappe a PC component, increase the roughness of the PC component and improve the viscous force.

A single transport plate 6 corresponds to at least 6 transport piles 5. Too few transport piles 5 may cause the transport plate 6 to fall off during transport.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and those modifications and variations assumed in the above are also considered to be within the protective scope of the present invention.

Claims (7)

1. The utility model provides a PC component production is with side napping machine (1) structure which characterized in that: including napping machine (1), ferry vehicle (2) and transport mechanism (4), subaerial track (3) that is provided with of transport mechanism (4) below, the direction of track (3) with transport mechanism (4) direction mutually perpendicular, ferry vehicle (2) move on track (3), napping machine (1) is located transport mechanism (4) side, napping machine (1) is located track (3) top, transport mechanism (4) include a plurality of transportation stake (5) and transport plate (6), be equipped with movable pulley on transportation stake (5) top, transport plate (6) are arranged in on the pulley, be equipped with elevating system on ferry vehicle (2), elevating system includes a plurality of lift stake (7).

2. The side napping mechanism (1) for PC component production according to claim 1, characterized in that: napping machine (1) includes sawtooth (8), installation pole (9), connecting rod (10), column spinner (11), pillar (12) and cylinder (13), sawtooth (8) fixed mounting be in on installation pole (9), connecting rod (10) have a plurality of roots, connecting rod (10) fixed connection column spinner (11) with installation pole (9).

3. The side napping mechanism (1) for PC component production according to claim 2, characterized in that: connecting rod (10) divide into connecting mobile jib (14) and connect auxiliary rod (15), connect what install pole (9) both ends is called connecting mobile jib (14), connects what install the middle of pole (9) is called and connects auxiliary rod (15), connecting mobile jib (14) with connecting auxiliary rod (15) and being the cuboid form, just connecting mobile jib (14) is compared connecting auxiliary rod (15) thick.

4. The side napping mechanism (1) for PC component production according to claim 2, characterized in that: the both ends swivelling joint of column spinner (11) pillar (12), the equal fixedly connected with rotary pair pole (16) in both ends of column spinner (11), rotary pair pole (16) are kept away from the one end of column spinner (11) is connected the piston rod of cylinder (13).

5. The side napping mechanism (1) for PC component production according to claim 4, characterized in that: the cylinder (13) is fixedly arranged on a mounting stick (17), and the mounting stick (17) is rotatably connected with the support column (12).

6. The side napping mechanism (1) for PC component production according to claim 1, characterized in that: the saw teeth (8) are provided with a plurality of saw teeth, gaps are formed among some saw teeth (8), and the size of each gap is the same as that of the steel bars exposed on the PC component plate.

7. The side napping mechanism (1) for PC component production according to claim 1, characterized in that: a single transport plate (6) corresponds to at least 6 transport piles (5).

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