CN210555787U - Brick stacking machine - Google Patents

Abstract

The utility model relates to a ceramic floor tile especially relates to a fold brick machine. The to-be-solved technical problem of the utility model is to provide a fold brick machine. The utility model provides a pile brick machine, including the chassis, the block terminal, control the platform, positioning mechanism, transport mechanism, the roof-rack, first speed adjusting mechanism, second speed adjusting mechanism, elevating system and place the board, chassis front end right side is provided with the block terminal, chassis front end left side through the support frame with control the platform and rotate and be connected, chassis top right middle part is provided with positioning mechanism, chassis top left side middle part is provided with transport mechanism, chassis top left side front and back end all is connected with the roof-rack, the middle part is provided with elevating system in the chassis, the top is provided with first speed adjusting mechanism in the roof-rack. The utility model discloses the effect of location conveying and controllable speed governing coincide ceramic tile has been reached.

Description

Brick stacking machine

Technical Field

The utility model relates to a ceramic floor tile especially relates to a fold brick machine.

Background

The ceramic tile is a plate-shaped or block-shaped ceramic product produced by clay and other inorganic non-metallic raw materials through processes of molding, sintering and the like, wall and floor surfaces for decorating and protecting buildings, structures, are typically formed at room temperature by dry pressing, extrusion or other forming methods, then dried, when the ceramic floor tile is fired at a certain temperature, the demand of people for houses is continuously increased along with the increase of population base number, the market of the ceramic floor tile is also exploded along with the increase of population base number, the brick stacking machine is used for stacking and packaging in ceramic production, the brick stacking machine is also technically improved along with the rapid development of scientific technology, but when the brick stacking machine in the prior art is used, because the transport speed of the conveyor is too fast, it is easy to cause the bricks to collide with the machine frame when stacking and cause the bricks to be damaged, however, the speed of the conveying belt cannot be adjusted to reduce the production efficiency, so that a brick stacking machine with controllable speed and production efficiency guaranteed is urgently needed.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

The utility model discloses an overcome prior art and fold brick machine when using, because the transport speed of conveying is too fast, lead to the fragment of brick to hit and lead to the fragment of brick to damage in the frame when piling up easily, but can not reduce the speed of conveyer belt, can lead to the shortcoming that production efficiency reduces, the to-be-solved technical problem of the utility model is to provide a brick folding machine.

The utility model is achieved by the following concrete technical means:

the utility model provides a pile brick machine, including the chassis, the block terminal, control the platform, positioning mechanism, transport mechanism, the roof-rack, first speed adjusting mechanism, second speed adjusting mechanism, elevating system and place the board, chassis front end right side is provided with the block terminal, chassis front end left side is rotated with controlling the platform through the support frame and is connected, chassis top right middle part is provided with positioning mechanism, chassis top left side middle part is provided with transport mechanism, chassis top left side front and back end all is connected with the roof-rack, the middle part is provided with elevating system in the chassis, the top is provided with first speed adjusting mechanism in the roof-rack, the front portion is provided with second speed adjusting mechanism in the roof-rack, the elevating system top is provided with places.

Further, the positioning mechanism comprises a middle shaft frame, a transmission set, a first transmission belt, a second transmission belt, a gear disc, a first bearing seat, a variable speed motor, a first base, a first air cylinder, a first T-shaped frame, a first positioning wheel, a second base, a second air cylinder, a second T-shaped frame, a third positioning wheel, a fourth positioning wheel and a first shaft rod, wherein the middle part of the top end of the middle shaft frame is in bolt connection with the transmission set through a nut, the left side of the top end of the middle shaft frame is in bolt connection with the first base through a nut, the right side of the top end of the middle shaft frame is in bolt connection with the first air cylinder through a nut, the left side of the outer surface of the transmission set is in transmission connection with the first transmission belt, the right side of the outer surface of the transmission set is in transmission connection with the second transmission belt, the right side of the outer surface of the transmission set is in transmission connection with the gear disc, the left side of the bottom end of the transmission set, the middle part of the front end of the first bearing seat is rotationally connected with a variable speed motor, the top end of a first base is rotationally connected with a first air cylinder through a nut, the right side of the first air cylinder is rotationally connected with a first T-shaped frame through a nut, the rear side of the top end of the first T-shaped frame is rotationally connected with a first positioning wheel, the front side of the top end of the first T-shaped frame is rotationally connected with a second positioning wheel, the top end of a second base is rotationally connected with a second air cylinder through a nut, the left side of the second air cylinder is rotationally connected with a second T-shaped frame through a nut, the rear side of the top end of the second T-shaped frame is rotationally connected with a third positioning wheel through a nut, the front side of the top end of the second T-shaped frame is rotationally connected with a fourth positioning wheel through a nut, the number of first shaft levers is four, the four opposite corners are respectively arranged at the bottom end of a transmission group, the bottom end of, the variable speed motor bottom is connected with the chassis, and first shaft lever surface bottom is connected with the chassis.

Furthermore, a first speed regulating mechanism comprises a third air cylinder, a supporting plate, a first sliding shaft, a second sliding shaft, a roller frame and a speed reducing wheel, the bottom end of the third air cylinder is welded with the supporting plate, the left side of the third air cylinder is mutually spliced with the first sliding shaft, the right side of the second sliding shaft is mutually spliced with the first sliding shaft, the bottom end of the first sliding shaft is screwed with the roller frame, the right side of the top end of the roller frame is connected with the second sliding shaft, the bottom in the roller frame is rotatably connected with the speed reducing wheel through a rotating shaft, and the left side and the right side of the supporting plate are connected with a top frame.

Further, second speed control mechanism includes the fourth cylinder, the axle sleeve, the dead lever, first fixed cover, the second axostylus axostyle, the third axostylus axostyle, directional wheel, fixed cover of second and fourth axostylus axostyle, fourth cylinder surface bottom cup joints with the axle sleeve, axle sleeve right side middle part is pegged graft with the dead lever, dead lever surface left side cup joints with first fixed cover, bottom pegs graft with the third axostylus axostyle in the dead lever, dead lever surface right side cup joints with the fixed cover of second, first fixed cover top welds with the second axostylus axostyle, third axostylus axostyle bottom welds with directional wheel, the fixed cover top of second welds with the fourth axostylus axostyle, fourth cylinder top is connected with the roof-.

Further, elevating system includes step motor, the bull stick, the second bearing, the spur gear, third bearing and rack, step motor rotates on the left of the staff and is connected with the bull stick, bull stick surface right side rotates with the second bearing and is connected, the left side rotates with the spur gear in the bull stick surface and is connected, bull stick surface left side rotates with the third bearing and is connected, spur gear rear side and rack intermeshing, the step motor bottom is connected with the chassis, the second bearing bottom is connected with the chassis, third bearing bottom is connected with the chassis, rack surface middle part is connected with the chassis.

Furthermore, the second speed regulating mechanism is provided with two groups which are respectively arranged on the front side and the rear side of the top in the top frame.

Further, both sides all are provided with a silica gel pad around placing the board top.

Furthermore, the third shaft lever and the directional wheels are respectively provided with four groups of combined wheels, the four groups of combined wheels are respectively arranged at the bottom of the fixed rod at equal intervals, and the bottom of the directional wheels is provided with an extension outer ring.

Compared with the prior art, the utility model discloses following beneficial effect has:

for solving prior art brick stacking machine when using, because the transport speed of conveying is too fast, lead to the fragment of brick to hit and lead to the fragment of brick to damage in the frame when piling up easily, but can not reduce the speed of conveyer belt, can lead to the problem that production efficiency reduces, positioning mechanism has been designed, first speed adjusting mechanism, second speed adjusting mechanism and elevating system, pass through positioning mechanism location ceramic tile position during the use, make it keep rectilinear movement, then support the ceramic tile who comes through elevating system, cooperate first speed adjusting mechanism to carry out the deceleration simultaneously, the cooperation brick stacking when second speed adjusting mechanism carries out the deceleration, thereby the effect of location conveying and controllable speed governing coincide ceramic tile stacking has been reached.

Drawings

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

fig. 2 is a bottom view of the present invention;

FIG. 3 is a schematic structural view of the positioning mechanism of the present invention;

fig. 4 is a schematic structural view of a first speed regulating mechanism of the present invention;

fig. 5 is a schematic structural view of a second speed regulating mechanism of the present invention;

fig. 6 is a schematic view of the lifting mechanism of the present invention.

The labels in the figures are: 1-underframe, 2-distribution box, 3-console, 4-positioning mechanism, 5-transmission mechanism, 6-top frame, 7-first speed regulating mechanism, 8-second speed regulating mechanism, 9-lifting mechanism, 10-placing plate, 401-middle shaft frame, 402-transmission group, 403-first transmission belt, 404-second transmission belt, 405-gear disc, 406-first bearing seat, 407-variable-speed motor, 408-first base, 409-first cylinder, 4010-first T-shaped frame, 4011-first positioning wheel, 4012-second positioning wheel, 4013-second base, 4014-second cylinder, 4015-second T-shaped frame, 4016-third positioning wheel, 4017-fourth positioning wheel, 4018-first shaft rod, 701-third cylinder, 702-a supporting plate, 703-a first sliding shaft, 704-a second sliding shaft, 705-a roller frame, 706-a speed reducing wheel, 801-a fourth cylinder, 802-a shaft sleeve, 803-a fixed rod, 804-a first fixed sleeve, 805-a second shaft rod, 806-a third shaft rod, 807-an oriented wheel, 808-a second fixed sleeve, 809-a fourth shaft rod, 901-a stepping motor, 902-a rotating rod, 903-a second bearing seat, 904-a flat gear, 905-a third bearing seat and 906-a rack.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Examples

The utility model provides a brick stacking machine, as shown in fig. 1-6, including chassis 1, block terminal 2, control platform 3, positioning mechanism 4, transport mechanism 5, roof-rack 6, first speed control mechanism 7, second speed control mechanism 8, elevating system 9 and place board 10, 1 front end right side of chassis is provided with block terminal 2, 1 front end left side of chassis is rotated with control platform 3 through the support frame and is connected, 1 top right middle part of chassis is provided with positioning mechanism 4, 1 top left side middle part of chassis is provided with transport mechanism 5, 1 top left side front and back end of chassis all is connected with roof-rack 6, the middle part is provided with elevating system 9 in chassis 1, the top is provided with first speed control mechanism 7 in roof-rack 6, the front portion is provided with second speed control mechanism 8 in the roof-rack 6, elevating system 9 top is provided with places board 10.

The positioning mechanism 4 comprises a middle shaft bracket 401, a transmission group 402, a first conveyor belt 403, a second conveyor belt 404, a gear disc 405, a first bearing seat 406, a variable speed motor 407, a first base 408, a first air cylinder 409, a first T-shaped bracket 4010, a first positioning wheel 4011, a second positioning wheel 4012, a second base 4013, a second air cylinder 4014, a second T-shaped bracket 4015, a third positioning wheel 4016, a fourth positioning wheel 4017 and a first shaft rod 4018, wherein the middle part of the top end of the middle shaft bracket 401 is in bolt connection with the transmission group 402 through a nut, the left side of the top end of the middle shaft bracket 401 is in bolt connection with the first base 408 through a nut, the right side of the top end of the middle shaft bracket 401 is in bolt connection with the first air cylinder 409 through a nut, the left side of the outer surface of the transmission group 402 is in transmission connection with the first conveyor belt 403, the right side of the outer surface of the transmission group 402 is in transmission connection with the second conveyor belt 404, the, the front left side of the bottom end of a transmission group 402 is inserted with a first shaft rod 4018, the bottom of the outer surface of a gear plate 405 is in transmission connection with a first bearing seat 406 through a chain, the middle part of the front end of the first bearing seat 406 is in rotary connection with a variable speed motor 407, the top end of a first base 408 is in bolt connection with a first cylinder 409 through a nut, the right side of the first cylinder 409 is in bolt connection with a first T-shaped frame 4010 through a nut, the rear side of the top end of the first T-shaped frame 4010 is in rotary connection with a first positioning wheel 4011, the front side of the top end of the first T-shaped frame 4010 is in bolt connection with a second positioning wheel 4012, the top end of a second base 4013 is in bolt connection with a second cylinder 4014 through a nut, the left side of the second cylinder 4014 is in bolt connection with a second T-shaped frame 4015 through a nut, the rear side of the top end of the second T-shaped frame 4015 is in bolt connection with a third positioning wheel 4016 through a nut, the front side of, first shaft bar 4018 is provided with four altogether, installs four diagonal angles at transmission group 402 bottom respectively, and well pedestal 401 bottom is connected with chassis 1, and first bearing frame 406 top rear side is connected with chassis 1, and variable speed motor 407 bottom is connected with chassis 1, and first shaft bar 4018 surface bottom is connected with chassis 1.

The first speed regulating mechanism 7 comprises a third air cylinder 701, a support plate 702, a first sliding shaft 703, a second sliding shaft 704, a roller frame 705 and a speed reducing wheel 706, the bottom end of the third air cylinder 701 is welded with the support plate 702, the left side of the third air cylinder 701 is mutually spliced with the first sliding shaft 703, the right side of the second sliding shaft 704 is mutually spliced with the first sliding shaft 703, the bottom end of the first sliding shaft 703 is screwed with the roller frame 705, the right side of the top end of the roller frame 705 is connected with the second sliding shaft 704, the bottom in the roller frame 705 is rotatably connected with the speed reducing wheel 706 through a rotating shaft, and the left side and the right side of the support plate 702 are both connected with the top frame 6.

The second speed regulating mechanism 8 comprises a fourth cylinder 801, a shaft sleeve 802, a fixed rod 803, a first fixed sleeve 804, a second shaft rod 805, a third shaft rod 806, a directional wheel 807, a second fixed sleeve 808 and a fourth shaft rod 809, wherein the bottom of the outer surface of the fourth cylinder 801 is sleeved with the shaft sleeve 802, the right middle part of the shaft sleeve 802 is inserted into the fixed rod 803, the left side of the outer surface of the fixed rod 803 is sleeved with the first fixed sleeve 804, the middle bottom of the fixed rod 803 is inserted into the third shaft rod 806, the right side of the outer surface of the fixed rod 803 is sleeved with the second fixed sleeve 808, the top end of the first fixed sleeve 804 is welded with the second shaft rod 805, the bottom of the third shaft rod 806 is welded with the directional wheel 807, the top end of the second fixed sleeve 808 is welded with the fourth shaft rod 809, the top of the fourth cylinder 801 is connected with the top frame 6, the second.

Elevating system 9 includes step motor 901, bull stick 902, second bearing seat 903, flat gear 904, third bearing seat 905 and rack 906, step motor 901 left side is rotated with bull stick 902 and is connected, bull stick 902 surface right side is rotated with second bearing seat 903 and is connected, left side and flat gear 904 rotate in the bull stick 902 surface and are connected, bull stick 902 surface left side is rotated with third bearing seat 905 and is connected, flat gear 904 rear side and rack 906 intermeshing, step motor 901 bottom is connected with chassis 1, second bearing seat 903 bottom is connected with chassis 1, third bearing seat 905 bottom is connected with chassis 1, rack 906 surface middle part is connected with chassis 1.

The second speed regulating mechanisms 8 are provided with two groups and are respectively arranged on the front side and the rear side of the top in the top frame 6.

The front side and the rear side of the top end of the placing plate 10 are respectively provided with a silica gel pad.

The number of the third shaft rods 806 and the number of the directional wheels 807 are four, the four shaft rods and the four directional wheels are combined respectively, the four shaft rods and the four directional wheels are arranged at the bottom of the fixed rod 803 at equal intervals, and the bottom of the directional wheels 807 is provided with an extension outer ring.

The working principle is as follows: the utility model provides a brick stacking machine, including chassis 1, the block terminal 2, control platform 3, transport mechanism 5, the roof-rack 6, place board 10, positioning mechanism 4, first speed adjusting mechanism 7, second speed adjusting mechanism 8 and elevating system 9, 1 front end right side of chassis is provided with block terminal 2, 1 front end left side of chassis is rotated with control platform 3 through the support frame and is connected, 1 top right middle part of chassis is provided with positioning mechanism 4, 1 top left side middle part of chassis is provided with transport mechanism 5, 1 top left side front and back end of chassis all is connected with roof-rack 6, the middle part is provided with elevating system 9 in chassis 1, the top is provided with first speed adjusting mechanism 7 in the roof-rack 6, the front portion is provided with second speed adjusting mechanism 8 in the roof- rack 6, 9 tops of elevating system are provided with places board 10.

The position of will folding the brick machine and will using during the use, external power source again, then start the operation after having allocated the machine, the operation part has been adjusted through controlling platform 3 during the operation, pass through the conveying of positioning mechanism 4 with ceramic floor tile after that, can fix a position ceramic floor tile in the time of the conveying, move toward the left side under positioning mechanism 4's conveying after that, then control elevating system 9 through the 5 driven while of conveying mechanism and upwards ejecting board 10 of placing, be convenient for place ceramic floor tile, then ceramic floor tile is reduced the speed by first speed regulating mechanism 7 and second speed regulating mechanism 8 simultaneously and is stacked, thereby the effect of location conveying and controllable speed governing coincide ceramic floor tile has been reached.

The positioning mechanism 4 comprises a middle shaft bracket 401, a transmission group 402, a first conveyor belt 403, a second conveyor belt 404, a gear disc 405, a first bearing seat 406, a variable speed motor 407, a first base 408, a first air cylinder 409, a first T-shaped bracket 4010, a first positioning wheel 4011, a second positioning wheel 4012, a second base 4013, a second air cylinder 4014, a second T-shaped bracket 4015, a third positioning wheel 4016, a fourth positioning wheel 4017 and a first shaft rod 4018, wherein the middle part of the top end of the middle shaft bracket 401 is in bolt connection with the transmission group 402 through a nut, the left side of the top end of the middle shaft bracket 401 is in bolt connection with the first base 408 through a nut, the right side of the top end of the middle shaft bracket 401 is in bolt connection with the first air cylinder 409 through a nut, the left side of the outer surface of the transmission group 402 is in transmission connection with the first conveyor belt 403, the right side of the outer surface of the transmission group 402 is in transmission connection with the second conveyor belt 404, the, the front left side of the bottom end of a transmission group 402 is inserted with a first shaft rod 4018, the bottom of the outer surface of a gear plate 405 is in transmission connection with a first bearing seat 406 through a chain, the middle part of the front end of the first bearing seat 406 is in rotary connection with a variable speed motor 407, the top end of a first base 408 is in bolt connection with a first cylinder 409 through a nut, the right side of the first cylinder 409 is in bolt connection with a first T-shaped frame 4010 through a nut, the rear side of the top end of the first T-shaped frame 4010 is in rotary connection with a first positioning wheel 4011, the front side of the top end of the first T-shaped frame 4010 is in bolt connection with a second positioning wheel 4012, the top end of a second base 4013 is in bolt connection with a second cylinder 4014 through a nut, the left side of the second cylinder 4014 is in bolt connection with a second T-shaped frame 4015 through a nut, the rear side of the top end of the second T-shaped frame 4015 is in bolt connection with a third positioning wheel 4016 through a nut, the front side of, first shaft bar 4018 is provided with four altogether, installs four diagonal angles at transmission group 402 bottom respectively, and well pedestal 401 bottom is connected with chassis 1, and first bearing frame 406 top rear side is connected with chassis 1, and variable speed motor 407 bottom is connected with chassis 1, and first shaft bar 4018 surface bottom is connected with chassis 1.

The ceramic floor tile is placed on the top ends of a first conveyor belt 403 and a second conveyor belt 404, a variable speed motor 407 is used for driving a first bearing seat 406 to transmit, a gear disc 405 is driven by a gear in the first bearing seat 406 through a chain, the first conveyor belt 403 and the second conveyor belt 404 are enabled to transmit simultaneously, a first cylinder 409 and a second cylinder 4014 run simultaneously, reciprocating motion drives a first positioning wheel 4011 and a second positioning wheel 4012 on a first T-shaped frame 4010, a third positioning wheel 4016 and a fourth positioning wheel 4017 on a second T-shaped frame 4015 to position, the length of a transmission set 402 can be adjusted when the transmission set is used, four screws are arranged at the inner diagonal angles of the transmission set to adjust, the ceramic floor tile can move horizontally, the positioning speed is high, and the transferring movement efficiency is high.

The first speed regulating mechanism 7 comprises a third air cylinder 701, a support plate 702, a first sliding shaft 703, a second sliding shaft 704, a roller frame 705 and a speed reducing wheel 706, the bottom end of the third air cylinder 701 is welded with the support plate 702, the left side of the third air cylinder 701 is mutually spliced with the first sliding shaft 703, the right side of the second sliding shaft 704 is mutually spliced with the first sliding shaft 703, the bottom end of the first sliding shaft 703 is screwed with the roller frame 705, the right side of the top end of the roller frame 705 is connected with the second sliding shaft 704, the bottom in the roller frame 705 is rotatably connected with the speed reducing wheel 706 through a rotating shaft, and the left side and the right side of the support plate 702 are both connected with the top frame 6.

When the ceramic floor tile moves to the bottom end of the ceramic floor tile, the third air cylinder 701 descends to drive the roller carrier 705 to descend, the first sliding shaft 703 and the second sliding shaft 704 slide in a matched mode when the ceramic floor tile descends, the roller carrier 705 drives the speed reducing wheel 706 to descend, the speed reducing wheel 706 is in contact with the ceramic floor tile to reduce the speed, the top end can be positioned and reduced, the speed of the ceramic floor tile in the moving process is greatly reduced, and the ceramic floor tile cannot be damaged.

The second speed regulating mechanism 8 comprises a fourth cylinder 801, a shaft sleeve 802, a fixed rod 803, a first fixed sleeve 804, a second shaft rod 805, a third shaft rod 806, a directional wheel 807, a second fixed sleeve 808 and a fourth shaft rod 809, wherein the bottom of the outer surface of the fourth cylinder 801 is sleeved with the shaft sleeve 802, the right middle part of the shaft sleeve 802 is inserted into the fixed rod 803, the left side of the outer surface of the fixed rod 803 is sleeved with the first fixed sleeve 804, the middle bottom of the fixed rod 803 is inserted into the third shaft rod 806, the right side of the outer surface of the fixed rod 803 is sleeved with the second fixed sleeve 808, the top end of the first fixed sleeve 804 is welded with the second shaft rod 805, the bottom of the third shaft rod 806 is welded with the directional wheel 807, the top end of the second fixed sleeve 808 is welded with the fourth shaft rod 809, the top of the fourth cylinder 801 is connected with the top frame 6, the second.

When the ceramic floor tile moves to the bottom end of the first speed regulating mechanism 7, after the directional wheel 807 is in contact with the ceramic floor tile for speed reduction, the fourth cylinder 801 stretches and retracts to drive the shaft sleeve 802 to rotate the fixing rod 803, the directional wheel 807 is driven to turn over laterally, meanwhile, the two groups of second speed regulating mechanisms 8 reduce the speed of the front side and the rear side of the ceramic floor tile simultaneously, the first fixing sleeve 804 and the second fixing sleeve 808 ensure the use stability of the fixing rod 803, speed reduction can be simultaneously carried out on two sides, and the turning stability is high.

Elevating system 9 includes step motor 901, bull stick 902, second bearing seat 903, flat gear 904, third bearing seat 905 and rack 906, step motor 901 left side is rotated with bull stick 902 and is connected, bull stick 902 surface right side is rotated with second bearing seat 903 and is connected, left side and flat gear 904 rotate in the bull stick 902 surface and are connected, bull stick 902 surface left side is rotated with third bearing seat 905 and is connected, flat gear 904 rear side and rack 906 intermeshing, step motor 901 bottom is connected with chassis 1, second bearing seat 903 bottom is connected with chassis 1, third bearing seat 905 bottom is connected with chassis 1, rack 906 surface middle part is connected with chassis 1.

Ceramic tile removes simultaneously, and step motor 901 rotates bull stick 902 and drives the rack 906 of spur gear 904 meshing and rise, makes the board 10 of placing of top installation can cooperate and place ceramic tile, and second bearing seat 903 and third bearing seat 905 ensure the stability of bull stick 902 pivoted entirely, can cooperate and carry out stacking of ceramic tile, and the regulation precision is high.

The second speed regulating mechanisms 8 are arranged in two groups and are respectively arranged on the front side and the rear side of the top in the top frame 6, and the front side and the rear side of the ceramic floor tile can be synchronously decelerated.

The front side and the rear side of the top end of the placing plate 10 are respectively provided with a silica gel pad, so that the antiskid function and the auxiliary positioning function can be increased, and the ceramic floor tiles can be prevented from being gouged.

The third shaft 806 and the directional wheel 807 are respectively provided with four groups, which are respectively combined, and are respectively arranged at the bottom of the fixing rod 803 at equal intervals, and the bottom of the directional wheel 807 is provided with an extension outer ring, so that the speed reduction efficiency can be increased.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (8)

1. A brick stacking machine comprises an underframe (1), a distribution box (2), a console (3), and is characterized by further comprising a positioning mechanism (4), a transmission mechanism (5), a top frame (6), a first speed regulating mechanism (7), a second speed regulating mechanism (8), a lifting mechanism (9) and a placing plate (10), wherein the distribution box (2) is arranged on the right side of the front end of the underframe (1), the left side of the front end of the underframe (1) is rotatably connected with the console (3) through a support frame, the positioning mechanism (4) is arranged in the right middle of the top end of the underframe (1), the transmission mechanism (5) is arranged in the middle of the left side of the top end of the underframe (1), the front end and the rear end of the left side of the top end of the underframe (1) are both connected with the top frame (6), the lifting mechanism (9) is arranged in the middle of the underframe (1), the first speed regulating mechanism (7) is arranged at the top, a placing plate (10) is arranged at the top end of the lifting mechanism (9).

2. The brick stacking machine according to claim 1, wherein the positioning mechanism (4) comprises a middle shaft bracket (401), a transmission group (402), a first transmission belt (403), a second transmission belt (404), a gear plate (405), a first bearing seat (406), a variable speed motor (407), a first base (408), a first air cylinder (409), a first T-shaped bracket (4010), a first positioning wheel (4011), a second positioning wheel (4012), a second base (4013), a second air cylinder (4014), a second T-shaped bracket (4015), a third positioning wheel (4016), a fourth positioning wheel (4017) and a first shaft rod (4018), the middle part of the top end of the middle shaft bracket (401) is bolted with the transmission group (402) through nuts, the left side of the top end of the middle shaft bracket (401) is bolted with the first base (408) through nuts, the right side of the top end of the middle shaft bracket (401) is bolted with the first air cylinder (409) through nuts, the left side of the outer surface of a transmission group (402) is in transmission connection with a first conveyor belt (403), the right side of the outer surface of the transmission group (402) is in transmission connection with a second conveyor belt (404), the front right side of the outer surface of the transmission group (402) is in transmission connection with a gear disc (405), the front left side of the bottom end of the transmission group (402) is inserted into a first shaft rod (4018), the bottom of the outer surface of the gear disc (405) is in transmission connection with a first bearing seat (406) through a chain, the middle part of the front end of the first bearing seat (406) is in rotation connection with a variable speed motor (407), the top end of a first base (408) is in bolt connection with a first air cylinder (409) through a nut, the right side of the first air cylinder (409) is in bolt connection with a first T-shaped frame (4010) through a nut, the rear side of the top end of the first T-shaped frame (4010) is in rotation connection with a first positioning wheel (4011), the front side of the top end of the first, second base (4013) top carries out bolted connection through nut and second cylinder (4014), bolted connection is carried out through nut and second T type frame (4015) in second cylinder (4014) left side, bolted connection is carried out through nut and third locating wheel (4016) in second T type frame (4015) top rear side, bolted connection is carried out through nut and fourth locating wheel (4017) in second T type frame (4015) top front side, first axostylus axostyle (4018) are provided with four altogether, install four diagonal angles at transmission group (402) bottom respectively, well axostylus axostyle (401) bottom is connected with chassis (1), first axostylus axostyle (406) top rear side is connected with chassis (1), variable speed motor (407) bottom is connected with chassis (1), first axostylus axostyle (4018) surface bottom is connected with chassis (1).

3. A brick stacking machine according to claim 2, characterized in that the first speed adjusting mechanism (7) comprises a third cylinder (701), a support plate (702), a first sliding shaft (703), a second sliding shaft (704), a roller frame (705) and a speed reducing wheel (706), the bottom end of the third cylinder (701) is welded with the support plate (702), the left side of the third cylinder (701) is inserted into the first sliding shaft (703), the right side of the second sliding shaft (704) is inserted into the first sliding shaft (703), the bottom end of the first sliding shaft (703) is screwed into the roller frame (705), the right side of the top end of the roller frame (705) is connected with the second sliding shaft (704), the bottom of the roller frame (705) is rotatably connected with the speed reducing wheel (706) through a rotating shaft, and the left side and the right side of the support plate (702) are connected with the top frame (6).

4. A brick stacking machine according to claim 3, characterized in that the second speed adjusting mechanism (8) comprises a fourth cylinder (801), a shaft sleeve (802), a fixing rod (803), a first fixing sleeve (804), a second shaft (805), a third shaft (806), an orientation wheel (807), a second fixing sleeve (808) and a fourth shaft (809), the bottom of the outer surface of the fourth cylinder (801) is sleeved with the shaft sleeve (802), the right middle part of the shaft sleeve (802) is inserted with the fixing rod (803), the left side of the outer surface of the fixing rod (803) is sleeved with the first fixing sleeve (804), the middle bottom of the fixing rod (803) is inserted with the third shaft (806), the right side of the outer surface of the fixing rod (803) is sleeved with the second fixing sleeve (808), the top end of the first fixing sleeve (804) is welded with the second shaft (805), the bottom of the third shaft (806) is welded with the orientation wheel (807), the top end of the second fixing sleeve (808) is welded with a fourth shaft rod (809), the top of a fourth cylinder (801) is connected with the top frame (6), the second shaft rod (805) is connected with the top frame (6), and the fourth shaft rod (809) is connected with the top frame (6).

5. A brick stacking machine according to claim 4, characterized in that the lifting mechanism (9) comprises a stepping motor (901), a rotating rod (902) and a second bearing seat (903), flat gear (904), third bearing frame (905) and rack (906), step motor (901) left side is rotated with bull stick (902) and is connected, bull stick (902) surface right side is rotated with second bearing frame (903) and is connected, the left side is rotated with flat gear (904) in bull stick (902) surface and is connected, bull stick (902) surface left side is rotated with third bearing frame (905) and is connected, flat gear (904) rear side and rack (906) intermeshing, step motor (901) bottom is connected with chassis (1), second bearing frame (903) bottom is connected with chassis (1), third bearing frame (905) bottom is connected with chassis (1), rack (906) surface middle part is connected with chassis (1).

6. A brick stacking machine according to claim 5, characterized in that the second speed adjusting mechanisms (8) are provided in two groups, respectively arranged on the front side and the rear side of the inner top of the top frame (6).

7. A brick stacking machine according to claim 6, characterized in that a silicone pad is arranged on each of the front and rear sides of the top end of the placing plate (10).

8. A brick stacking machine as claimed in claim 7, characterized in that the third shaft (806) and the orientation wheel (807) are provided in four groups, respectively, and are mounted equidistantly at the bottom of the fixing rod (803), and the bottom of the orientation wheel (807) is provided with an extended outer ring.

Images