CN217707965U - Magnetic stacker with adjustable magnetic belt conveyor distance - Google Patents

Abstract

Magnetic force belt feeder interval adjustable magnetism stacker relates to steel sheet transport technical field. The device comprises a top support, a plurality of transverse frames and a plurality of magnetic belt conveyors, wherein the top support, the plurality of transverse frames and the plurality of magnetic belt conveyors are sequentially arranged from top to bottom, bearing blocks are respectively arranged at two ends of each transverse frame, the bearing blocks at two ends of each transverse frame are slidably arranged on the top support through linear guide rails, and transverse driving mechanisms for driving the transverse frames to slide back and forth along the linear guide rails are arranged between the transverse frames and the top support; a transmission shaft penetrates through the transverse moving frames along the front-back direction, sliding sleeves are respectively arranged between the transverse moving frames and the transmission shaft, and a first driving motor for driving the transmission shaft to rotate is further mounted on the top support; and a magnetic belt conveyor is connected under each transverse frame, and the power input end of each magnetic belt conveyor is in transmission connection with a sliding sleeve between the corresponding transverse frame and the corresponding transmission shaft. The utility model discloses interval between the different needs adjustment magnetic force belt feeder according to the steel sheet width to the transport that adapts to different specification steel sheets is carried.

Description

Magnetic stacker with adjustable magnetic belt conveyor distance

Technical Field

The utility model relates to a transport technical field is carried to the steel sheet, specifically is a magnetic force belt feeder interval adjustable magnetism stacker.

Background

The magnetic stacker carries steel plates through a plurality of magnetic belt conveyors arranged at intervals, the magnetic belt conveyors are fixed in position in the prior art, but the specifications of the steel plates are different, the magnetic belt conveyors at fixed positions can only be applied to the steel plates with fixed specifications, and the application range is small.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a magnetic force belt feeder interval adjustable magnetism stacker can effectively solve the problem in the background.

The technical scheme for realizing the purpose is as follows: magnetic force belt feeder interval adjustable magnetism stacker, its characterized in that: the device comprises a top support, a plurality of transverse frames and a plurality of magnetic belt conveyors, wherein the top support, the plurality of transverse frames and the plurality of magnetic belt conveyors are sequentially arranged from top to bottom, the transverse frames are arranged in parallel at intervals along the front and back direction of the top support, bearing seats are respectively installed at two ends of each transverse frame, the bearing seats at two ends of each transverse frame are slidably installed on the top support through linear guide rails, synchronizing shafts are rotatably installed between the bearing seats, and transverse driving mechanisms for driving the transverse frames to slide back and forth along the linear guide rails are installed between the transverse frames and the top support;

a transmission shaft penetrates between the transverse moving frames along the front-back direction, two ends of the transmission shaft are rotatably installed below the top support through connecting supports, sliding sleeves are respectively arranged between the transverse moving frames and the transmission shaft, the sliding sleeves are in axial sliding fit and radial positioning fit with the transmission shaft, bearings are installed between the sliding sleeves and the transverse moving frames, and a first driving motor for driving the transmission shaft to rotate is further installed on the top support;

and a magnetic belt conveyor is connected under each transverse frame, and the power input end of each magnetic belt conveyor is in transmission connection with a sliding sleeve between the corresponding transverse frame and the corresponding transmission shaft.

Furthermore, the transverse moving driving mechanism comprises gears fixedly installed at two ends of the synchronizing shaft, racks meshed with the gears at two ends of the synchronizing shaft are installed on the left side and the right side of the top support along the front-back direction respectively, and second driving motors in transmission connection with the synchronizing shaft are installed on the transverse moving frames respectively.

Furthermore, spline fit is adopted between the sliding sleeve and the transmission shaft, and axial sliding fit and radial positioning fit between the sliding sleeve and the transmission shaft are achieved.

The magnetic belt conveyor comprises a belt conveyor frame, a driving roller and a driven roller are rotatably mounted at two ends of the belt conveyor frame, the driving roller and the driven roller are in transmission connection through a belt, the driving roller is coaxially and fixedly provided with a driving shaft, and the driving shaft is in transmission connection with a sliding sleeve between a corresponding transverse frame and a transmission shaft;

all be provided with the strong magnet above the lower floor's of magnetic force belt feeder's input and output belt, be provided with a plurality of electric permanent magnets that are located lower floor's belt top between the strong magnet of magnetic force belt feeder's input and output, the lower floor conveyor belt of magnetic force belt feeder and the bottom surface sliding fit of strong magnet and electric permanent magnet.

Further, the detection switch that the sense terminal is down and be used for steel sheet input to detect is installed to input one side of magnetic force belt feeder.

The utility model has the advantages that:

the utility model discloses a magnetic force belt feeder is used for holding the steel sheet and carries forward, adjusts the interval between the magnetic force belt feeder according to the different needs of steel sheet width simultaneously to the transport of adaptation different specification steel sheets is carried, and adopts same motor power to guarantee speed unanimous and reduce cost between the magnetic force belt feeder.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a partial schematic view of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 1;

fig. 4 is an enlarged view of a portion B in fig. 2.

Detailed Description

As shown in fig. 1-4, the utility model discloses a top support 1, four sideslip frames 2 and four magnetic force belt feeders 3 that set gradually from the top down, sideslip frame 2 is along the parallel interval arrangement of the fore-and-aft direction of top support 1, bearing frame 4 is installed respectively at the both ends of sideslip frame 2, through linear guide 5 slidable mounting on top support 1 between the bearing frame 4 at sideslip frame 2 both ends, all rotate between the bearing frame 4 at 2 both ends of sideslip frame and install synchronizing shaft 6, the both ends fixed mounting of synchronizing shaft 6 has gear 7, top support 1 installs respectively along the fore-and-aft direction with the rack 8 of the gear 7 looks meshing at synchronizing shaft 6 both ends about both sides, still install respectively on the sideslip frame 2 and correspond the second driving motor 9 that 6 transmissions of synchronizing shaft are connected.

Wear to transmission shaft 10 along the fore-and-aft direction between the left end of sideslip frame 2, transmission shaft 10 adopts the integral key shaft, the both ends of transmission shaft 10 are passed through connecting support 11 and are rotated the below of installing at top bracket 1, install the bearing between support 11 and the transmission shaft 10, be provided with spline sliding sleeve 12 between sideslip frame 2 and the transmission shaft 10 respectively, make and form gliding spline fit between transmission shaft 10 and the spline sliding sleeve 12, install the bearing between spline sliding sleeve 12 and the sideslip frame 2, still install the first driving motor 13 of drive transmission shaft 10 pivoted on the top bracket 21, first driving motor 13 adopts servo motor.

All be connected with a magnetic force belt feeder 3 under every sideslip frame 2, magnetic force belt feeder 3 includes belt feeder frame 3.1, installs and rotates at belt feeder frame 3.1 both ends and installs drive roll 3.2 and driven voller 3.3, connects through belt 3.4 transmission between drive roll 3.2 and the driven voller 3.3, and the coaxial fixed mounting of drive roll 3.2 has driving shaft 3.5, install synchronous belt pulley 14 on the driving shaft 3.5, all install output belt pulley 15 on every spline sliding sleeve 12, synchronous belt pulley 14 on the driving shaft 3.5 of magnetic force belt feeder 3 with correspond the output belt pulley 15 transmission connection on the spline sliding sleeve 12 between sideslip frame 2 and the transmission shaft 10.

All be provided with strong magnet 3.6 above the lower floor's belt 3.4 of magnetic force belt feeder 3's input and output, be provided with a plurality of electric permanent magnet 3.7 that are located lower floor's belt 3.4 top between the strong magnet 3.6 of magnetic force belt feeder 3's input and output, strong magnet 3.6 and electric permanent magnet 3.7 are all installed on belt feeder frame 3.1, the continuous transportation of steel sheet is guaranteed with the interval of adjacent electric permanent magnet 3.7 and the interval size between two adjacent electric permanent magnets 3.7 to strong magnet 3.6, generally for being not more than 1/4 of carrying steel sheet length.

Lower floor's conveyor belt 3.4 and strong magnet 3.6 and electric permanent magnet 3.7's bottom surface sliding fit of magnetic force belt feeder 3, the sense terminal is installed downwards to the input of magnetic force belt feeder 3 and is used for steel sheet input detection's detection switch 3.8, and detection switch 3.8 adopts diffuse reflection laser sensor.

When the steel plate conveying device works, a steel plate is conveyed rightwards in the previous process, meanwhile, the first driving motor 13 drives the first transmission shaft 10 to rotate, all the magnetic belt conveyors 3 synchronously rotate through the spline sliding sleeve 12, the output belt pulley 15 and the synchronous belt pulley 14, when the steel plate reaches the input end of the magnetic belt conveyors 3, the detection switch 6 detects the steel plate and starts to record the position, meanwhile, the strong magnet 3.6 adsorbs and hangs the steel plate on the magnetic belt conveyors 2 through the belt 3.4 to continue conveying rightwards, at the moment, the electro-permanent magnet 3.7 is in a power-off state, meanwhile, the steel plate 1 is gradually conveyed backwards to the position below the electro-permanent magnet 3.7, after the steel plate is operated to a specified position, the magnetic belt conveyors 2 are controlled to stop conveying, and the steel plate falls down and is stacked after the electro-permanent magnet 5 is controlled to be powered on.

The utility model discloses can adjust the transport and the transport of interval in order to adapt to different specification steel sheets between the magnetic force belt feeder 3, specifically adjust the principle:

the second driving motor 9 on the sideslip frame 2 that the drive needs the adjusting position works, drive synchronizing shaft 6 and rotate, synchronizing shaft 6 drives the gear 7 rotation at both ends, gear 7 meshes the transmission with the rack 8 at 1 both sides of top support, thereby drive 2 displacements around the sideslip frame, position around adjusting along linear guide 5, sideslip frame 2 slides along the transmission shaft through spline sliding sleeve 12 simultaneously, thereby realize the position control with the magnetic force belt feeder 3 that sideslip frame 2 is connected.

Claims (5)

1. Magnetic force belt feeder interval adjustable magnetism stacker, its characterized in that: the device comprises a top support, a plurality of transverse frames and a plurality of magnetic belt conveyors, wherein the top support, the plurality of transverse frames and the plurality of magnetic belt conveyors are sequentially arranged from top to bottom, the transverse frames are arranged in parallel at intervals along the front and back direction of the top support, bearing seats are respectively installed at two ends of each transverse frame, the bearing seats at two ends of each transverse frame are slidably installed on the top support through linear guide rails, synchronizing shafts are rotatably installed between the bearing seats, and transverse driving mechanisms for driving the transverse frames to slide back and forth along the linear guide rails are installed between the transverse frames and the top support;

a transmission shaft penetrates through the transverse moving frames along the front-back direction, two ends of the transmission shaft are rotatably installed below the top support through connecting supports, sliding sleeves are respectively arranged between the transverse moving frames and the transmission shaft, the sliding sleeves are in axial sliding fit and radial positioning fit with the transmission shaft, bearings are installed between the sliding sleeves and the transverse moving frames, and a first driving motor for driving the transmission shaft to rotate is further installed on the top support;

and a magnetic belt conveyor is connected under each transverse frame, and the power input end of each magnetic belt conveyor is in transmission connection with a sliding sleeve between the corresponding transverse frame and the corresponding transmission shaft.

2. The magnetic stacker with the adjustable magnetic belt conveyor distance of claim 1, which is characterized in that: the transverse moving driving mechanism comprises gears fixedly installed at two ends of the synchronizing shaft, racks meshed with the gears at two ends of the synchronizing shaft are installed on the left side and the right side of the top support along the front-back direction respectively, and second driving motors in transmission connection with the synchronizing shaft are installed on the transverse moving frames respectively.

3. The magnetic stacker with the adjustable magnetic belt conveyor distance of claim 1, which is characterized in that: the sliding sleeve and the transmission shaft are in spline fit, and axial sliding fit and radial positioning fit between the sliding sleeve and the transmission shaft are achieved.

4. The magnetic stacker with the adjustable magnetic belt conveyor distance as claimed in claim 1, characterized in that: the magnetic belt conveyor comprises a belt conveyor frame, a driving roller and a driven roller are rotatably arranged at two ends of the belt conveyor frame, the driving roller and the driven roller are in transmission connection through a belt, the driving roller is coaxially and fixedly provided with a driving shaft, and the driving shaft is in transmission connection with a sliding sleeve between a corresponding transverse frame and a transmission shaft;

all be provided with the strong magnet above the lower floor's of magnetic force belt feeder's input and output belt, be provided with a plurality of electric permanent magnets that are located lower floor's belt top between the strong magnet of magnetic force belt feeder's input and output, the lower floor conveyor belt of magnetic force belt feeder and the bottom surface sliding fit of strong magnet and electric permanent magnet.

5. The magnetic stacker with the adjustable magnetic belt conveyor distance of claim 4, which is characterized in that: and a detection switch with a detection end facing downwards and used for detecting the input of the steel plate is installed on one side of the input end of the magnetic belt conveyor.

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