CN111703826B - Foam brick conveyor for building - Google Patents

Abstract

The invention relates to a conveying device for buildings, in particular to a conveying device for foam bricks for buildings. The invention aims to provide a conveying device for foam bricks for buildings, which does not need to lift two hands, can save time and labor and can improve the conveying efficiency. In order to solve the above technical problems, the present invention provides a conveyor for foam bricks for construction, comprising: the end part of the transfer cart is connected with an installation plate, a transfer mechanism is installed on the installation plate, a transfer plate is connected to the transfer mechanism, and a brick stirring mechanism is installed on the transfer plate; and one side of the end part of the transfer cart, which is close to the mounting plate, is connected with a supporting table. The conveying plate moves upwards to quickly convey the foam bricks to the support, so that the foam bricks are conveyed to the support without being lifted manually, hands are not required to be lifted, time and labor are saved, and the conveying efficiency can be improved.

Description

Foam brick conveyor for building

Technical Field

The invention relates to a conveying device for buildings, in particular to a conveying device for foam bricks for buildings.

Background

Because the height of a walling master is limited, the walling master needs to stand on a higher bracket for walling when piling the wall, so that the walling master needs to convey the foam bricks to the bracket for conveniently taking the foam bricks; at present, the foam bricks are lifted by one hand to be conveyed to a support, so that time and labor are wasted, conveying efficiency is low, long-time lifting of both hands is needed, and both hands are easy to feel sore.

Therefore, it is necessary to develop a conveying device for foam bricks for buildings, which does not need to lift both hands, saves time and labor, and can improve conveying efficiency.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the foam brick needs to be manually lifted and conveyed to a bracket, so that time and labor are wasted, and the conveying efficiency is low.

(2) Technical scheme

In order to solve the above technical problems, the present invention provides a conveyor for foam bricks for construction, comprising: the end part of the transfer cart is connected with an installation plate, a transfer mechanism is installed on the installation plate, a transfer plate is connected to the transfer mechanism, and a brick stirring mechanism is installed on the transfer plate; and one side of the end part of the transfer cart, which is close to the mounting plate, is connected with a supporting table.

Preferably, the carrying mechanism includes: the speed reducing motor is arranged on one side of the mounting plate, a first chain wheel is connected to the speed reducing motor, a second chain wheel is rotatably connected to the other side of the mounting plate, and a chain is connected between the second chain wheel and the first chain wheel; the other side of the end part of the transfer cart close to the mounting plate is connected with a guide rod, the guide rod is connected with a guide sleeve in a sliding manner, and the guide sleeve is connected with a movable block in a sliding manner; the connecting rod is connected with on the chain, and the one end and the movable block of connecting rod are connected.

Preferably, the tile pushing mechanism comprises: the bottom of the conveying plate is rotatably connected with a rotating shaft, the rotating shaft is connected with a first gear, a second connecting seat is sleeved on the outer wall of the rotating shaft, which is close to the first gear, one side of the top of the second connecting seat is connected with the bottom of the conveying plate, and a second reel is connected on the outer wall of the rotating shaft, which is close to the second connecting seat; the second scroll spring is connected in the second connecting seat and is connected with the rotating shaft; the second connecting seat is rotatably connected with the fixed pulley; the two sides of the bottom of the conveying plate, which are close to the first gear, are both connected with guide blocks, a first rack is connected in the guide blocks in a sliding manner, the first rack is meshed with the first gear, and a shifting plate is connected to the first rack; the device comprises an n-shaped rod, wherein one side of the top of a supporting table is connected with the n-shaped rod, the n-shaped rod is connected with a connecting block, the connecting block is rotatably connected with a rocker, a first connecting seat is sleeved on the rocker, the first connecting seat is connected with the connecting block, a first volute spring is connected in the first connecting seat and connected with the rocker, and the outer wall of the rocker, close to the first volute spring, is connected with a first reel; one side of the top of the conveying plate is connected with the guide pipe; the stay cord is wound on the first reel, one end of the stay cord is wound on the first reel, the other end of the stay cord firstly penetrates through the guide pipe, the conveying plate and the second connecting seat, then bypasses the fixed pulley and finally is wound on the second reel.

Preferably, the method further comprises the following steps: lower brick mechanism, lower brick mechanism includes: the upper part of one side of the supporting table is connected with a fixed rod, the fixed rod is connected with two second racks, two sides of the conveying plate are rotatably connected with second gears, the second gears are meshed with the second racks, and the second gears are connected with cams; one side of the top of the conveying plate, which is close to the guide pipe, is hinged with two turning plates, one side of the end part of each turning plate is connected with a contact plate, and the bottom of each contact plate is in contact with the cam.

Preferably, the method further comprises the following steps: the turning plate is connected with a plurality of rotating rollers in a rotating manner.

(3) Advantageous effects

1. The conveying plate moves upwards to quickly convey the foam bricks to the support, so that the foam bricks are conveyed to the support without being lifted manually, hands are not required to be lifted, time and labor are saved, and the conveying efficiency can be improved.

2. The brick mechanism down can make the foam brick slide in the brace table top to do not need the workman to take off the foam brick, and then can labour saving and time saving more, can further improve and transport efficiency.

3. The roller can make the foam brick slide into the top of the supporting table more smoothly and quickly.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the conveying mechanism of the present invention.

Fig. 3 is a schematic perspective view of the brick shifting mechanism of the present invention.

Fig. 4 is an enlarged view of the present invention a.

Fig. 5 is a schematic partial three-dimensional structure diagram of the brick shifting mechanism.

Fig. 6 is an enlarged view of invention B.

Fig. 7 is a schematic perspective view of the brick setting mechanism of the present invention.

The labels in the figures are: 1-transport carriage, 2-mounting plate, 3-transport mechanism, 31-gear motor, 32-first sprocket, 33-second sprocket, 34-chain, 35-guide rod, 36-guide sleeve, 37-movable block, 38-connecting rod, 4-transport plate, 5-brick-pulling mechanism, 51-n-shaped rod, 52-connecting block, 53-rocker, 54-first connecting seat, 55-first scroll spring, 56-first reel, 57-pull rope, 58-guide pipe, 59-guide block, 510-first rack, 511-pulling plate, 512-rotating shaft, 513-first gear, 514-second reel, 515-second connecting seat, 516-second scroll spring, 517-fixed pulley, 6-support table, 7-a brick-placing mechanism, 71-a fixed rod, 72-a second rack, 73-a second gear, 74-a cam, 75-a turnover plate, 76-a contact plate and 8-a rotating roller.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A foam brick conveying device for buildings is shown in figures 1-6 and comprises a conveying vehicle 1, a mounting plate 2, a conveying mechanism 3, a conveying plate 4, a brick shifting mechanism 5 and a supporting table 6, wherein the mounting plate 2 is vertically connected to the top of the conveying vehicle 1, the conveying mechanism 3 is mounted on the mounting plate 2, the conveying plate 4 is connected to the conveying mechanism 3, the brick shifting mechanism 5 is mounted on the conveying plate 4, and the supporting table 6 is connected to the top of the conveying vehicle 1 on the rear side of the mounting plate 2.

The conveying mechanism 3 comprises a speed reducing motor 31, a first chain wheel 32, a second chain wheel 33, a chain 34, guide rods 35, guide sleeves 36, a movable block 37 and a connecting rod 38, wherein the speed reducing motor 31 is installed on the upper portion of the rear side face of the mounting plate 2, an output shaft of the speed reducing motor 31 is connected with the first chain wheel 32 through a coupling, the lower portion of the front side face of the mounting plate 2 is rotatably connected with the second chain wheel 33, the chain 34 is connected between the second chain wheel 33 and the first chain wheel 32, two guide rods 35 are vertically connected to the top of the conveying vehicle 1 on the front side of the mounting plate 2, the two guide rods 35 are bilaterally symmetrical, the guide sleeves 36 are slidably connected between the two guide rods 35, the conveying plate 4 is connected to the front side of the guide sleeves 36, the movable block 37 is slidably connected into the guide sleeves 36, the connecting rod 38 is connected to the front side face of the chain 34, and the front end of the connecting rod 38 is rotatably connected to the rear side face of the movable block 37.

The brick-pulling mechanism 5 comprises an n-shaped rod 51, a connecting block 52, a rocker 53, a first connecting seat 54, a first scroll spring 55, a first reel 56, a pull rope 57, a guide pipe 58, a guide block 59, a first rack 510, a pulling plate 511, a rotating shaft 512, a first gear 513, a second reel 514, a second connecting seat 515, a second scroll spring 516 and a fixed pulley 517, wherein the rear side of the bottom of the conveying plate 4 is rotatably connected with the rotating shaft 512, the upper part of the rotating shaft 512 is connected with the first gear 513, the lower part of the rotating shaft 512 is connected with the second reel 514, the middle part of the rotating shaft 512 is sleeved with the second connecting seat 515, the rear side of the top of the second connecting seat 515 is connected with the bottom of the conveying plate 4, the second scroll spring 516 is connected in the second connecting seat 515, the second scroll spring 516 is connected with the rotating shaft 512, the rear side of the bottom of the second connecting seat 515 is rotatably connected with the fixed pulley 517, the left side and the right side of the bottom of the conveying plate 4 are both connected with the guide blocks 59, a first rack 510 is connected to the guide block 59 in a sliding manner, the first rack 510 is meshed with a first gear 513, the left side surface of the first rack 510 on the left side and the right side surface of the first rack 510 on the right side are both connected with a shifting plate 511, the front side of the top of the support table 6 is connected with an n-shaped rod 51, the middle of the front side surface of the n-shaped rod 51 is connected with a connecting block 52, the connecting block 52 is connected with a rocker 53 in a rotating manner, a first connecting seat 54 is sleeved on the rocker 53, the rear side surface of the first connecting seat 54 is connected with the front side surface of the connecting block 52, a first scroll spring 55 is connected in the first connecting seat 54, the first scroll spring 55 is connected with the rocker 53, a first reel 56 is connected on the rocker 53 on the front side of the first scroll spring 55, a guide pipe 58 is vertically connected on the rear side of the top of the conveying plate 4, a pull rope 57 is wound on the first reel 56, the top end of the pull rope 57 is wound on the first reel 56, and the bottom end of the pull rope 57 firstly penetrates through the guide pipe 58, The carrying plate 4 and the second connecting holder 515, then pass around the fixed pulley 517, and finally pass around the second reel 514.

When the foam bricks need to be conveyed to the bracket, a worker can move the foam brick conveying device to the front side of the bracket, then pile the foam bricks on the ground at the front side of the conveying vehicle 1, and enable the piled foam bricks to be positioned at the left side and the right side of the conveying plate 4; then, the speed reducing motor 31 is manually started to rotate the first chain wheel 32, the first chain wheel 32 rotates to rotate the second chain wheel 33 through the chain 34, so that the chain 34 can continuously rotate, the chain 34 rotates to enable the guide sleeve 36 to move downwards and upwards through the connecting rod 38 and the movable block 37, the conveying plate 4 is driven to move downwards and upwards, and when the conveying plate 4 moves downwards to be flush with the uppermost foam brick in the foam brick pile, the speed reducing motor 31 is closed, and the conveying plate 4 stops moving downwards along with the speed reducing motor. When the conveying plate 4 moves downwards, the pull rope 57 is pulled downwards, the first reel 56 rotates anticlockwise to release the pull rope 57, the first reel 56 rotates anticlockwise to drive the rocker 53 to rotate anticlockwise, and the first scroll spring 55 compresses; when the carrying plate 4 stops moving downwards, a worker on the bracket can swing the rocker 53 clockwise to rotate the first reel 56 clockwise to retract the pull rope 57, and then the first scroll spring 55 is restored; the first reel 56 rotates the retraction rope 57 clockwise, and the second reel 514 rotates the retraction rope 57 counterclockwise. The second reel 514 rotates counterclockwise to drive the rotating shaft 512 to rotate counterclockwise, the second volute spring 516 compresses, the rotating shaft 512 rotates counterclockwise and the first gear 513 rotates counterclockwise, the first gear 513 rotates counterclockwise to enable the two first racks 510 to approach each other, the two first racks 510 approach each other to drive the shifting plate 511 to approach the conveying plate 4, and the shifting plate 511 can drive the foam bricks to move onto the conveying plate 4. When the foam brick moves to the carrying plate 4, the worker can release the rocker 53, and the rotating shaft 512 can rotate clockwise under the action of the second volute spring 516, so that the second reel 514 can rotate clockwise to withdraw the pull rope 57; the first gear 513 rotates clockwise along with the rotating shaft 512, the first gear 513 rotates clockwise to enable the two first racks 510 to reset, and the two first racks 510 reset to drive the shifting plate 511 to reset. Thus, the pull rope 57 can be always in a tight state under the action of the first scroll spring 55 and the second scroll spring 516, and the pull rope 57 is prevented from being wound on other components of the present invention. After the shifting plate 511 is reset, the speed reducing motor 31 is started, so that the conveying plate 4 moves upwards, the conveying plate 4 moves upwards to drive the foam bricks on the conveying plate to move upwards, and when the foam bricks move upwards to a proper height, the speed reducing motor 31 is turned off; the worker on the support can remove the foam tiles from the carrier plate 4. Repeat above-mentioned operation, can be repeated transport the foam brick fast to the support on, so do not need the manual work to lift the foam brick high and transport to the support on to need not to lift both hands high, can labour saving and time saving, can improve and transport efficiency.

Example 2

Based on embodiment 1, as shown in fig. 1 and 7, the brick discharging device further includes a brick discharging mechanism 7, the brick discharging mechanism 7 includes a fixing rod 71, a second rack 72, a second gear 73, a cam 74, a flap 75 and a contact plate 76, the fixing rod 71 is connected to the upper portion of the front side of the support platform 6, two second racks 72 are connected to the front side of the bottom of the fixing rod 71, the two second racks 72 are bilaterally symmetrical, the second gears 73 are rotatably connected to the front sides of the left side and the right side of the conveying plate 4, the second gears 73 are meshed with the second racks 72, the cam 74 is connected to the second gears 73, the two flaps 75 are hinged to the rear side of the top of the conveying plate 4, the two flaps 75 are bilaterally symmetrical, the contact plate 76 is connected to the front side of the top of the flap 75, and the bottom of the contact plate 76 is in contact with the cam 74.

The shifting plate 511 can drive the foam bricks to move to the turning plate 75, the conveying plate 4 moves upwards and downwards to drive the second gear 73 to move upwards and downwards, when the second gear 73 moves upwards to be meshed with the second rack 72, the second gear 73 continues to move upwards to rotate, the second gear 73 rotates the cam 74, the cam 74 rotates to push the contact plate 76 to move upwards, the contact plate 76 moves upwards to drive the front side of the turning plate 75 to move upwards, the turning plate 75 is in a high-front and low-rear inclined state, and therefore the foam bricks on the turning plate 75 can slide into the top of the supporting table 6, workers do not need to take the foam bricks down, time and labor can be saved, and conveying efficiency can be further improved. When the second gear 73 moves downwards to engage with the second rack 72, the cam 74 is rotationally reset by the second gear 73 moving downwards, and the flap 75 is reset by gravity.

As shown in fig. 7, the device further comprises a roller 8, and a plurality of rollers 8 are rotatably connected to the top of the turning plate 75.

The roller 8 enables the foam bricks to slide into the top of the support table 6 more smoothly and quickly.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (3)

1. A conveyor for architectural foam tiles, comprising:

the end part of the transfer cart (1) is connected with a mounting plate (2), a transfer mechanism (3) is arranged on the mounting plate (2), a transfer plate (4) is connected on the transfer mechanism (3), and a brick poking mechanism (5) is arranged on the transfer plate (4);

the supporting table (6) is connected to one side, close to the end part of the mounting plate (2), of the transfer cart (1);

the conveyance mechanism (3) includes:

the speed reducing motor (31) is arranged on one side of the mounting plate (2), the speed reducing motor (31) is connected with a first chain wheel (32), the other side of the mounting plate (2) is rotatably connected with a second chain wheel (33), and a chain (34) is connected between the second chain wheel (33) and the first chain wheel (32);

the other side of the end part, close to the mounting plate (2), of the transfer cart (1) is connected with the guide rod (35), the guide rod (35) is connected with a guide sleeve (36) in a sliding mode, and the guide sleeve (36) is connected with a movable block (37) in a sliding mode;

the connecting rod (38) is connected to the chain (34), and one end of the connecting rod (38) is connected with the movable block (37);

the brick pulling mechanism (5) comprises:

the bottom of the conveying plate (4) is rotatably connected with a rotating shaft (512), the rotating shaft (512) is connected with a first gear (513), a second connecting seat (515) is sleeved on the outer wall, close to the first gear (513), of the rotating shaft (512), one side of the top of the second connecting seat (515) is connected with the bottom of the conveying plate (4), and the outer wall, close to the second connecting seat (515), of the rotating shaft (512) is connected with a second reel (514);

the second scroll spring (516), the second scroll spring (516) is connected in the second connecting seat (515), and the second scroll spring (516) is connected with the rotating shaft (512);

the fixed pulley (517) is rotatably connected to the second connecting seat (515);

the two sides of the bottom, close to the first gear (513), of the conveying plate (4) are connected with the guide blocks (59), the guide blocks (59) are connected with a first rack (510) in an inner sliding mode, the first rack (510) is meshed with the first gear (513), and the first rack (510) is connected with a shifting plate (511);

the device comprises an n-shaped rod (51), one side of the top of a supporting platform (6) is connected with the n-shaped rod (51), a connecting block (52) is connected onto the n-shaped rod (51), a rocker (53) is connected onto the connecting block (52) in a rotating mode, a first connecting seat (54) is sleeved on the rocker (53), the first connecting seat (54) is connected with the connecting block (52), a first volute spring (55) is connected into the first connecting seat (54), the first volute spring (55) is connected with the rocker (53), and a first reel (56) is connected to the outer wall, close to the first volute spring (55), of the rocker (53);

the guide pipe (58) is connected with one side of the top of the conveying plate (4);

the pull rope (57) is wound on the first winding wheel (56), one end of the pull rope (57) is wound on the first winding wheel (56), the other end of the pull rope (57) firstly penetrates through the guide pipe (58), the conveying plate (4) and the second connecting seat (515), then bypasses the fixed pulley (517) and finally winds on the second winding wheel (514).

2. The apparatus for transporting architectural foam tiles according to claim 1, further comprising: lower brick mechanism (7), lower brick mechanism (7) include:

the upper part of one side of the support platform (6) is connected with the fixing rod (71), the fixing rod (71) is connected with two second racks (72), two sides of the conveying plate (4) are rotatably connected with second gears (73), the second gears (73) are meshed with the second racks (72), and cams (74) are connected to the second gears (73);

one side of the top of the conveying plate (4) close to the guide pipe (58) is hinged with two turning plates (75), one side of the end part of each turning plate (75) is connected with a contact plate (76), and the bottom of each contact plate (76) is in contact with the cam (74).

3. The apparatus for transporting architectural foam tiles according to claim 2, further comprising:

the turning plate (75) is rotatably connected with a plurality of turning rollers (8).

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