CN112374199A - Automatic brick transferring, arranging and stacking equipment - Google Patents

Abstract

The automatic brick transferring, arranging and stacking equipment disclosed by the invention comprises a shell, wherein a transfer cavity is arranged on the left side of the shell, symmetrical slide rod fixing blocks are fixedly arranged on the upper side wall and the lower side wall of the transfer cavity, bilaterally symmetrical transfer slide rods are fixedly arranged between the slide rod fixing blocks, transfer slide blocks are slidably arranged on the transfer slide rods, transfer receiving blocks are fixedly arranged between the transfer slide blocks, and receiving plate slide grooves are fixedly arranged on the rear side wall of the transfer cavity.

Description

Automatic brick transferring, arranging and stacking equipment

Technical Field

The invention relates to the field of material conveying, in particular to automatic brick transferring, arranging and stacking equipment.

Background

As is well known, bricks are used everywhere, but the bricks are carried by time and labor waste, the bricks are carried by manpower at present, the bricks are easy to damage and labor-consuming, the bricks are carried by manpower in many places, the bricks are carried and arranged in batches, the bricks are arranged in a pile, the bricks are not easy to collapse, the occupied space is small, and more bricks can be stacked.

Disclosure of Invention

In order to solve the problems, the present embodiment designs an automatic brick conveying, arranging and stacking device, which comprises a housing, wherein a conveying cavity is arranged on the left side of the housing, symmetrical slide rod fixing blocks are fixedly arranged on the upper side wall and the lower side wall of the conveying cavity, transfer slide rods which are bilaterally symmetrical are fixedly arranged between the slide rod fixing blocks, transfer slide blocks are arranged on the transfer slide rods in a sliding manner, transfer bearing blocks are fixedly arranged between the transfer slide blocks, a bearing plate sliding groove is fixedly arranged on the rear side wall of the conveying cavity, the bearing plate sliding groove can slide on the bearing plate, a driving motor is fixedly arranged on the lower rear side wall of the conveying cavity, a lower chain wheel shaft is rotatably arranged on the front side of the driving motor, a fan-shaped wheel is fixedly arranged on the rear side of the lower chain wheel shaft, a lower chain wheel driving wheel is fixedly arranged in the middle section of the lower chain wheel shaft, a lower chain wheel is fixedly arranged on the front, a meshing wheel shaft is rotatably arranged on the rear side wall of the transmission cavity, a meshing driving wheel is fixedly arranged on the rear side of the meshing wheel shaft, a fan-shaped meshing wheel is fixedly arranged on the front side of the meshing wheel shaft and can be meshed with the fan-shaped wheel, a chain wheel shaft is rotatably arranged on the rear side wall of the transmission cavity, a chain wheel driving wheel is fixedly arranged on the rear side of the chain wheel shaft, a driving belt is connected between the chain wheel driving wheel and the lower chain wheel driving wheel, an upper chain wheel is fixedly arranged on the front side of the chain wheel shaft, a transmission chain is wound between the upper chain wheel and the lower chain wheel and is fixedly connected with the transfer receiving block, a feeding slide rail is fixedly arranged on the left lower side wall of the transmission cavity and is fixedly provided with a feeding slide rail, a feeding slide rail is fixedly arranged on the feeding slide rail and can convey bricks to the transfer receiving block, and a lifting cavity is arranged on the, the fixed friction rod groove that is equipped with on the lifting cavity lateral wall, the friction rod inslot slides and is equipped with the friction connecting rod, the fixed fixture block pole that is equipped with in friction connecting rod upper end, the fixed a plurality of fixture block groove that is equipped with the vertical range of bilateral symmetry on the fixture block pole, the fixture block inslot slides and is equipped with trapezoidal fixture block, trapezoidal fixture block with be connected with the spring between the fixture block groove end wall, the fixed ejection of compact slide pole that is equipped with in fixture block pole upper end, the fixed ejection of compact slide that is equipped with in ejection of compact slide pole upper end, ejection of compact slide can with brick head on the piece is accepted in the transfer.

Preferably, the lifting cavity is provided with cam shafts in a bilaterally symmetrical manner on the lower side, a wheel is fixedly arranged on the rear side of the cam shaft, a transmission belt is connected between the wheel and the meshing transmission wheel, a friction cam is fixedly arranged on the middle section of the cam shaft and can be in friction meshing with the friction connecting rod, a lower transmission wheel is fixedly arranged on the front side of the cam shaft, a rack meshing shaft is fixedly arranged on the upper side of the lifting cavity in a bilaterally symmetrical manner, a meshing shaft transmission wheel is fixedly arranged on the front side of the rack meshing shaft, a transmission belt is connected between the meshing shaft transmission wheel and the lower transmission wheel, a rack meshing block is fixedly arranged on the rear side of the rack meshing shaft, slot rod chutes which are bilaterally symmetrical are fixedly arranged on the upper rear side wall of the lifting cavity, slot rods are slidably arranged in the slot rod chutes, and springs, the clamping groove rod is fixedly provided with a plurality of vertically arranged clamping grooves, the trapezoidal clamping blocks can be clamped into the clamping grooves, clamping groove rod racks are fixedly arranged on the left side wall and the right side wall of the clamping groove rod, and the clamping groove rod racks can be meshed with the rack meshing block.

Preferably, a left moving cavity is arranged at the lower side of the lifting cavity, a main fixing plate is arranged at the upper end of the left moving cavity in a sliding manner, the lower side wall of the transmission cavity is fixedly connected with the upper side wall of the main fixing plate, the lower side wall of the lifting cavity is fixedly connected with the upper side wall of the main fixing plate, a left moving rack is fixedly arranged on the lower side wall of the main fixing plate, a right-angle driving lever is fixedly arranged at the right end of the main fixing plate, a motor sliding chute is fixedly arranged on the lower right side wall of the left moving cavity, a sliding motor is slidably arranged on the motor sliding chute, a motor driving lever is fixedly arranged at the rear side of the sliding motor, the motor driving lever can be jacked up to slide forwards, a threaded block shaft is rotatably arranged at the left side of the sliding motor, a threaded block is fixedly arranged at the middle section of the threaded block shaft, a torsion spring cavity is arranged on the rear side wall of the, the torsional spring axle rear side rotates and is equipped with the rack toothing wheel, the rack toothing wheel can with the rack toothing that moves to a left side, the fixed screw-thread meshing wheel that is equipped with of torsional spring axle front side, the screw-thread meshing wheel can with the screw block meshing.

The invention has the beneficial effects that: the automatic brick transferring, arranging and stacking equipment can effectively and automatically stack the batch bricks according to the required height or transfer the batch bricks to a boxcar, reduces the loss of manually moving the bricks back and forth and the damage to the brick carrying process, has high integral transferring speed, high efficiency and neat arrangement, is not easy to collapse, and is more suitable for carrying a large number of bricks.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic view of the structure A-A of FIG. 1;

fig. 3 is a schematic diagram of the structure B-B in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to automatic brick transferring, sorting and stacking equipment, which comprises a shell 10, wherein a transfer cavity 17 is arranged on the left side of the shell 10, symmetrical slide bar fixing blocks 19 are fixedly arranged on the upper side wall and the lower side wall of the transfer cavity 17, bilaterally symmetrical transfer slide bars 18 are fixedly arranged between the slide bar fixing blocks 19, transfer slide blocks 11 are slidably arranged on the transfer slide bars 18, a transfer bearing block 12 is fixedly arranged between the transfer slide blocks 11, a bearing plate sliding groove 20 is fixedly arranged on the rear side wall of the transfer cavity 17, the transfer bearing block 12 can slide on the bearing plate sliding groove 20, a driving motor 59 is fixedly arranged on the lower rear side wall of the transfer cavity 17, a lower chain wheel shaft 14 is rotatably arranged on the front side of the driving motor 59, a fan-shaped wheel 61 is fixedly arranged on the rear side of the lower chain wheel shaft 14, a lower chain wheel driving wheel 62 is fixedly arranged on the middle section of the lower chain wheel shaft 14, a lower chain wheel 13 is fixedly, a meshing wheel shaft 56 is rotatably arranged on the rear side wall of the transfer cavity 17, a meshing transmission wheel 57 is fixedly arranged on the rear side of the meshing wheel shaft 56, a fan-shaped meshing wheel 58 is fixedly arranged on the front side of the meshing wheel shaft 56, the fan-shaped meshing wheel 58 can be meshed with the fan-shaped wheel 61, a cochain wheel shaft 22 is rotatably arranged on the rear side wall of the transfer cavity 17, an upper chain wheel transmission wheel 55 is fixedly arranged on the rear side of the cochain wheel shaft 22, a transmission belt is connected between the upper chain wheel transmission wheel 55 and the lower chain wheel transmission wheel 62, an upper chain wheel 23 is fixedly arranged on the front side of the cochain wheel shaft 22, a transmission chain 21 is wound between the upper chain wheel 23 and the lower chain wheel 13, a section of the transmission chain 21 is fixedly connected with the intermediate rotating bearing block 12, a feeding chute rod 16 is fixedly arranged on the left lower side wall of the transfer cavity, the feeding slide 15 can transport the brick on the transit receiving block 12, the transmission chamber 17 right side is equipped with lifting chamber 33, the fixed friction rod groove 43 that is equipped with under the lifting chamber 33 on the lateral wall, it is equipped with friction connecting rod 35 to slide in the friction rod groove 43, the fixed fixture block pole 36 that is equipped with in friction connecting rod 35 upper end, a plurality of fixture block groove 37 of the vertical range that is equipped with bilateral symmetry is fixed on the fixture block pole 36, it is equipped with trapezoidal fixture block 38 to slide in the fixture block groove 37, trapezoidal fixture block 38 with be connected with the spring between the fixture block groove 37 end wall, the fixed ejection of compact slide pole 25 that is equipped with in fixture block pole 36 upper end, the fixed ejection of compact slide 24 that is equipped with in ejection of compact slide pole 25 upper end, ejection of compact slide 24 can with the brick on the transit receiving block 12 is walked to the right side.

Beneficially, the cam shaft 31 is rotationally arranged on the lower side of the lifting cavity 33 in a bilateral symmetry manner, a wheel is fixedly arranged on the rear side of the cam shaft 31, a transmission belt is connected between the wheel and the meshing transmission wheel 57, the friction cam 32 is fixedly arranged on the middle section of the cam shaft 31, the friction cam 32 can be in friction meshing engagement with the friction connecting rod 35, the lower transmission wheel 30 is fixedly arranged on the front side of the cam shaft 31, the rack meshing shaft 27 is rotationally arranged on the upper side of the lifting cavity 33 in a bilateral symmetry manner, the meshing shaft transmission wheel 28 is fixedly arranged on the front side of the rack meshing shaft 27, a transmission belt is connected between the meshing shaft transmission wheel 28 and the lower transmission wheel 30, the rack meshing block 29 is fixedly arranged on the rear side of the rack meshing shaft 27, the slot rod sliding grooves 42 are fixedly arranged on the upper rear side wall of the lifting cavity 33 in, the clamping groove rod 40 side wall with be connected with the spring between the clamping groove rod spout 42 end wall, fixed a plurality of draw-in groove 39 that is equipped with vertical range on the clamping groove rod 40, trapezoidal fixture block 38 can block in the draw-in groove 39, fixed clamping groove rod rack 26 that is equipped with on the lateral wall about the clamping groove rod 40, clamping groove rod rack 26 can with rack toothing piece 29 meshes.

Beneficially, a left moving cavity 52 is arranged on the lower side of the lifting cavity 33, a main fixing plate 44 is slidably arranged at the upper end of the left moving cavity 52, the lower side wall of the transfer cavity 17 is fixedly connected with the upper side wall of the main fixing plate 44, the lower side wall of the lifting cavity 33 is fixedly connected with the upper side wall of the main fixing plate 44, a left moving rack 45 is fixedly arranged on the lower side wall of the main fixing plate 44, a right-angle shift lever 46 is fixedly arranged at the right end of the main fixing plate 44, a motor sliding chute 48 is fixedly arranged on the right lower side wall of the left moving cavity 52, a sliding motor 47 is slidably arranged on the motor sliding chute 48, a motor shift lever 64 is fixedly arranged on the rear side of the sliding motor 47, the right-angle shift lever 46 can jack up the motor shift lever 64 to slide forwards, a threaded block shaft 51 is rotatably arranged on the left side of the sliding motor 47, a threaded block 50, torsional spring chamber 63 front side rotation is equipped with torsional spring axle 49, torsional spring axle 49 with be connected with the torsional spring between the torsional spring chamber 63 rear side wall, torsional spring axle 49 rear side rotation is equipped with rack engaging wheel 54, rack engaging wheel 54 can with the meshing of left side shift rack 45, the fixed screw thread engaging wheel 53 that is equipped with in torsional spring axle 49 front side, screw thread engaging wheel 53 can with the meshing of thread piece 50.

The use steps herein are described in detail below with reference to fig. 1-3:

in the initial state, the driving motor 59 is not started, the lower sprocket shaft 14 does not rotate, the sector wheel 61 does not rotate, the sector engaging wheel 58 does not rotate, the engaging driving wheel 57 does not rotate, the lower sprocket driving wheel 62 does not rotate, the upper sprocket driving wheel 55 does not rotate, the upper sprocket shaft 22 does not rotate, the upper sprocket 23 and the lower sprocket 13 do not rotate, the transmission chain 21 does not rotate in an engaging manner, the intermediate receiving block 12 does not slide in the receiving plate sliding groove 20, the intermediate sliding block 11 does not slide in the intermediate sliding rod 18, the friction cam 32 does not rotate, the cam shaft 31 does not rotate, the friction connecting rod 35 is arranged at the lowest part of the friction rod groove 43, the discharging slideway 24 is arranged at the lowest part of the transmission cavity 17, under the action of the clamping groove rod spring 41, the clamping groove rods 40 at the two sides are close, the engaging shaft driving wheel 28 does not rotate, the rack engaging block 29 does not, the thread engaging wheel 53 does not rotate, the torsion spring shaft 49 does not rotate, the rack engaging wheel 54 does not engage the left moving rack 45 to move leftward, the right-angle shift lever 46 does not abut against the motor shift lever 64, and the slide motor 47 is located at the last position in the motor slide groove 48.

When the operation is started, when the brick is moved for the truck, the brick is placed on the feeding slideway 15 and slides rightwards, the driving motor 59 is started to drive the lower chain wheel shaft 14 to rotate, the lower chain wheel driving wheel 62 is driven to rotate, the upper chain wheel 23 and the lower chain wheel 13 are driven to rotate, the transmission chain 21 is driven to rotate, the transfer receiving block 12 slides in the receiving plate slideway 20, the brick on the feeding slideway 15 is conveyed to the discharging slideway 24 to slide rightwards and is placed at the lowest layer of the truck, the lower chain wheel shaft 14 continues to rotate to drive the fan-shaped wheel 61 to rotate to be meshed with the fan-shaped meshing wheel 58 to drive the meshed driving wheel 57 to rotate, the cam shaft 31 is driven to rotate, the friction cam 32 is driven to rotate, the meshed friction connecting rod 35 is driven to move upwards for a certain distance, meanwhile, the trapezoidal clamping block 38 is clamped into the clamping groove 39 of the left clamping groove rod 40, so that the discharging slideway rod 25 moves upwards for a, the reciprocating operation is carried out until the rack engaging block 29 piled to a certain height moves towards two sides due to the fact that the rack engaging shaft 27 rotates to engage with the slot clamping rod 26, the slot clamping rod 40 moves towards two sides, the trapezoid clamping block 38 is not clamped into the clamping slot 39, the friction connecting rod 35 is disengaged from the friction cam 32 and moves downwards along with gravity and falls into the lowest end again, the sliding motor 47 is started to drive the screw block 50 to rotate to engage with the screw engaging wheel 53, the rack engaging wheel 54 is driven to rotate, the left moving rack 45 moves leftwards, the whole equipment moves leftwards, a second building is piled behind the original first building, the reciprocating operation is carried out, when the length of a first row of the boxcar is reached, the brick heads cannot be piled continuously, the equipment moves towards the second row, the right-angle shifting lever 46 moves leftwards to push the motor shifting lever 64, the sliding motor 47 slides forwards for a section, and the screw engaging wheel 53 is disengaged from the, and reversely rotating under the action of the torsion spring, so that the left moving rack 45 moves towards the rightmost end again, and the bricks are piled in the second row.

The invention has the beneficial effects that: the automatic brick transferring, arranging and stacking equipment can effectively and automatically stack the batch bricks according to the required height or transfer the batch bricks to a boxcar, reduces the loss of manually moving the bricks back and forth and the damage to the brick carrying process, has high integral transferring speed, high efficiency and neat arrangement, is not easy to collapse, and is more suitable for carrying a large number of bricks.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (3)

1. An automatic brick transferring, arranging and stacking device comprises a shell, wherein a transferring cavity is arranged on the left side of the shell, symmetrical slide rod fixing blocks are fixedly arranged on the upper side wall and the lower side wall of the transferring cavity, transfer slide rods which are bilaterally symmetrical are fixedly arranged between the slide rod fixing blocks, a transfer slide block is arranged on the transfer slide rod in a sliding manner, a transfer receiving block is fixedly arranged between the transfer slide blocks, a receiving plate slide groove is fixedly arranged on the rear side wall of the transferring cavity, the transfer receiving block can slide on the receiving plate slide groove, a driving motor is fixedly arranged on the lower rear side wall of the transferring cavity, a lower chain wheel shaft is rotatably arranged on the front side of the driving motor, a fan-shaped wheel is fixedly arranged on the rear side of the lower chain wheel shaft, a lower chain wheel driving wheel is fixedly arranged in the middle section of the lower chain wheel shaft, a lower chain wheel is fixedly arranged on the front side, a meshing transmission wheel is fixedly arranged at the rear side of the meshing wheel shaft, a fan-shaped meshing wheel is fixedly arranged at the front side of the meshing wheel shaft and can be meshed with the fan-shaped wheel, a cochain wheel shaft is rotatably arranged on the upper rear side wall of the transmission cavity, a cochain wheel transmission wheel is fixedly arranged at the rear side of the cochain wheel shaft, a transmission belt is connected between the cochain wheel transmission wheel and the lower sprocket wheel, an upper sprocket wheel is fixedly arranged at the front side of the cochain wheel shaft, a transmission chain is wound between the upper sprocket wheel and the lower sprocket wheel, a section of the transmission chain is fixedly connected with the transfer receiving block, a feeding chute rod is fixedly arranged on the left lower side wall of the transmission cavity, a feeding chute is fixedly arranged on the feeding chute rod and can convey the brick heads onto the transfer receiving block, a lifting cavity is arranged on the right side of the transmission cavity, and a friction rod groove, the improved brick conveying device is characterized in that a friction connecting rod is arranged in the friction rod groove in a sliding mode, a fixture block rod is fixedly arranged at the upper end of the friction connecting rod, a plurality of vertically arranged fixture block grooves which are bilaterally symmetrical are fixedly arranged on the fixture block rod, a trapezoidal fixture block is arranged in the fixture block groove in a sliding mode, a spring is connected between the trapezoidal fixture block and the end wall of the fixture block groove, a discharging slideway rod is fixedly arranged at the upper end of the fixture block rod, a discharging slideway is fixedly arranged at the upper end of the discharging slideway rod, and the discharging slideway can transport bricks on the transfer.

2. The automatic brick conveying, arranging and stacking device of claim 1, wherein: the lifting mechanism is characterized in that cam shafts are symmetrically arranged on the lower side of the lifting cavity in a left-right rotating mode, a wheel is fixedly arranged on the rear side of the cam shaft, a transmission belt is connected between the wheel and the meshing transmission wheel, a friction cam is fixedly arranged in the middle section of the cam shaft and can be in friction meshing with the friction connecting rod, a lower transmission wheel is fixedly arranged on the front side of the cam shaft, a rack meshing shaft is symmetrically arranged on the upper side of the lifting cavity in a left-right rotating mode, a meshing shaft transmission wheel is fixedly arranged on the front side of the rack meshing shaft, a transmission belt is connected between the meshing shaft transmission wheel and the lower transmission wheel, a rack meshing block is fixedly arranged on the rear side of the rack meshing shaft, slot rod chutes which are symmetrically arranged on the upper rear side wall of the lifting cavity are fixedly arranged on the upper rear side wall of the lifting cavity, slot rods are slidably arranged in the slot rod, the trapezoidal fixture block can be clamped into the clamping groove, clamping groove rod racks are fixedly arranged on the left side wall and the right side wall of the clamping groove rod, and the clamping groove rod racks can be meshed with the rack meshing block.

3. The automatic brick conveying, arranging and stacking device of claim 1, wherein: a left moving cavity is arranged at the lower side of the lifting cavity, a main fixing plate is arranged at the upper end of the left moving cavity in a sliding manner, the lower side wall of the transmission cavity is fixedly connected with the upper side wall of the main fixing plate, the lower side wall of the lifting cavity is fixedly connected with the upper side wall of the main fixing plate, a left moving rack is fixedly arranged on the lower side wall of the main fixing plate, a right-angle driving lever is fixedly arranged at the right end of the main fixing plate, a motor sliding chute is fixedly arranged on the lower right side wall of the left moving cavity, a sliding motor is slidably arranged on the motor sliding chute, a motor driving lever is fixedly arranged at the rear side of the sliding motor, the right-angle driving lever can jack up the motor driving lever to slide forwards, a threaded block shaft is rotatably arranged at the left side of the sliding motor, a threaded block is fixedly arranged at the middle section of the threaded block shaft, a torsion spring cavity is arranged on, the torsional spring axle rear side rotates and is equipped with the rack toothing wheel, the rack toothing wheel can with the rack toothing that moves to a left side, the fixed screw-thread meshing wheel that is equipped with of torsional spring axle front side, the screw-thread meshing wheel can with the screw block meshing.

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