Summary of the invention
It is in the prior art for overcoming the purpose of the present invention is to provide a kind of efficient automatic floor tile equipment
State defect.
The efficient automatic floor tile equipment of one kind of embodiment according to the present invention, including fuselage, the fuselage are close
The first crank chamber is offered at top position, offers the second crank chamber, the first crank chamber on the left of the first crank chamber
Intracavitary equipped with crank mechanism with second crank, second crank bottom of chamber portion offers the first sliding chamber, the described first sliding chamber
Interior to be equipped with slide block mechanism, the described first sliding chamber right side opening is equipped with glue chamber, and first crank bottom of chamber portion offers the second sliding chamber,
Second cunning is intracavitary to be equipped with the first pushing mechanism, and the described second sliding chamber rear wall offers belt chamber, and the belt is intracavitary to be equipped with
First conveyer mechanism, the second cunning chamber right side opening are equipped with the sliding chamber of third, and the third cunning is intracavitary to be equipped with the second pushing mechanism,
The sliding chamber right side opening of the third is equipped with third crank chamber, and the third crank is intracavitary to be equipped with power mechanism, the third crank chamber
Top offers the second belt chamber, and second belt is intracavitary to be equipped with the second conveyer mechanism, and the fuselage bottom wall is equipped with the
One fixed link and system for compacting, the fuselage bottom offer two groups of bottom chambers, and it is sliding that the 4th is offered in the bottom chamber rear wall
Chamber, the 4th cunning is intracavitary to be equipped with lifting body, is equipped with wheel on described fuselage or so outer wall, passes through the crank mechanism control
The vehicle wheel rotation is made, the fuselage is moved, first pushing mechanism and the sliding block are controlled by the crank mechanism
Mechanism work, pushes down on first pushing mechanism by floor tile, makes the slide block mechanism that glue is sent to described first and consolidate
Fixed pole controls second pushing mechanism by the power mechanism and second conveyer mechanism works, makes described second
Pushing mechanism pushes floor tile to the left, so that second conveyer mechanism is driven the first conveyer mechanism work, by floor tile
It transports to the left, by controlling the lifting body, so that the system for compacting is dropped to the ground that reclines, be compacted the floor tile being laid with.
Further technology explanation, bottom chamber described in two groups are opened in the bottom position of the fuselage, the bottom chamber
It is inside installed with the second fixed link, first connecting rod is hinged on the periphery of the second fixed link described in two groups, first described in two groups
Rotation is equipped with idler wheel between connecting rod, is embedded with first motor admittedly in the rear wall of the described 4th sliding chamber, the first motor is connected by power
The screw rod for having front and back to extend, the described 4th sliding intracavitary sliding are equipped with the first slide bar, and the screw rod and the first slide bar screw thread connect
It connects, extension is protruded into the bottom chamber on front side of first slide bar and its end is abutted with the first connecting rod.
Further technology explanation, rotation is equipped with what left and right extended between the first crank chamber and the second crank chamber
First crank axle is embedded with the second motor, second motor and first crank axle in the left wall of the first crank chamber admittedly
It being connected by power, first crank axle rotates on the periphery of the intracavitary bending part of second crank is equipped with the first axle sleeve,
The bottom end of first axle sleeve is installed with the first push rod, and the described first sliding intracavitary slide is equipped with the first sliding block, and described first
Push rod lower extension point protrudes into described first sliding intracavitary and its end and is fixedly connected with first sliding block, the described first sliding chamber
Right side opening be equipped with glue chamber, the rear wall of the glue chamber is opening design, is connected between the glue chamber and the first sliding chamber
Open up and be equipped with small chamber, it is described it is small it is intracavitary be installed with the first check valve, the described first sliding bottom of chamber portion offers the first long chamber.
Further technology illustrates, is installed with the first fixed link on the bottom wall of the fuselage, opens in first fixed link
Equipped with the second long chamber, the second long chamber is connected to the described first long chamber, and the upper wall of the second long chamber is equipped with opening, and described the
One length is intracavitary to be installed with second one-way valve.
Further technology explanation, the intracavitary rotation of third crank are equipped with the second crank axle extended up and down, and described the
Admittedly third motor is embedded in the upper wall of three crank chambers, the third motor is connected by power with second crank axle, and described second
Crank axle rotates on the periphery of the intracavitary bending part of the third crank is equipped with the second axle sleeve, the left side of second axle sleeve
End is installed with the second push rod, and the second push rod left side extension point protrudes into sliding intracavitary and its end of the third and is installed with the
Two sliding blocks, it is intracavitary that second sliding block sliding is located at the third cunning, is connected between the sliding chamber of the third and the second sliding chamber
Floor tile chamber is offered, the rear wall of the floor tile chamber is opening design.
Further technology illustrates, the second belt chamber is offered at the third crank top of chamber position, and described second is bent
Arbor, which upwardly extends, to be partially protruded into that second belt is intracavitary and is installed with first pulley on its periphery, and second belt is intracavitary
Rotation is equipped with the first transmission shaft extended up and down, and first transmission shaft is solid on the periphery of the intracavitary part of second belt
Equipped with first pulley, by the first transmission band connection between first pulley described in two groups, the bottom connection of the floor tile chamber is opened up
There is belt chamber, the intracavitary rotation of belt is equipped with second connecting rod, is installed with the second belt wheel on the periphery of the second connecting rod, described
First transmission shaft downward extension portion protrudes into that the belt is intracavitary and is installed with the second belt wheel, two group of second band on its periphery
Pass through the second transmission band connection between wheel.
Further technology explanation, the belt top of chamber connection offer the second sliding chamber, the described second sliding intracavitary sliding
Equipped with third sliding block, first crank axle rotates on the periphery of the intracavitary bending part of first crank is equipped with third axis
Set, the third axle sleeve bottom end are installed with third push rod, and the third push rod extends downwardly that protrude into second cunning intracavitary
And its end is fixedly connected with the third sliding block.
Further technology explanation, described first crank axle or so extends outside the fuselage and its end is installed with vehicle
Wheel, rotation is equipped with third connecting rod at position at left and right sides of the fuselage, wheel described in two groups be installed in two groups described in third connect
Bar end.
The beneficial effects of the present invention are: this equipment is made the second pushing mechanism work, floor tile is pushed away by control power mechanism
The first pushing mechanism is set to work, by what is arranged by controlling crank mechanism to the second conveyer belt, and by floor tile marshalling
Floor tile is pushed on ground, and the floor tile being then laid with by system for compacting compacting, this equipment can be laid with muti-piece floor tile simultaneously, greatly
The speed for being laid with floor tile is increased greatly, and avoids the problem of artificial laying is caused laying speed to reduce by physical exertion,
This equipment can work long hours, and improve efficiency, save cost of labor, liberate labour, be more suitable on a large scale
It is laid with work.
Specific embodiment
Below with reference to Fig. 1-6, the present invention is described in detail, for sake of convenience, now such as to hereafter described orientation regulation
Under: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.
Referring to Fig.1-6, the efficient automatic floor tile equipment of one kind of embodiment according to the present invention, including fuselage 10,
The fuselage 10 offers the first crank chamber 50 at top position, offers the second crank on the left of the first crank chamber 50
Crank mechanism 62,13 bottom of the second crank chamber are equipped in chamber 13, the first crank chamber 50 and the second crank chamber 13
The first sliding chamber 20 is offered, slide block mechanism 63 is equipped in the described first sliding chamber 20, the described first sliding 20 right side opening of chamber is equipped with glue
Chamber 17,50 bottom of the first crank chamber offer the second sliding chamber 30, are equipped with the first pushing mechanism 65 in the described second sliding chamber 30,
Second sliding 30 rear wall of chamber offers belt chamber 26, is equipped with the first conveyer mechanism 64 in the belt chamber 26, and described second
Sliding 30 right side opening of chamber is equipped with the sliding chamber 35 of third, and the second pushing mechanism 66, the sliding chamber 35 of the third are equipped in the sliding chamber 35 of the third
Right side opening is equipped with third crank chamber 38, and power mechanism 67,38 top of third crank chamber are equipped in the third crank chamber 38
The second belt chamber 45 is offered, the second conveyer mechanism 68 is equipped in the second belt chamber 45, is set on 10 bottom wall of fuselage
There are the first fixed link 24 and system for compacting 61,10 bottom of fuselage offers two groups of bottom chambers 52,52 rear wall of bottom chamber
The 4th sliding chamber 55 is inside offered, lifting body 60 is equipped in the described 4th sliding chamber 55, is equipped on 10 or so the outer wall of fuselage
Wheel 46 controls the wheel 46 by the crank mechanism 62 and rotates, moves the fuselage 10, pass through the crank mechanism
62 controls, first pushing mechanism 65 works with the slide block mechanism 63, pushes down on first pushing mechanism 65 by floor tile
It is dynamic, make the slide block mechanism 63 that glue is sent to first fixed link 24, controls described second by the power mechanism 67
Pushing mechanism 66 and second conveyer mechanism 68 work, and push second pushing mechanism 66 to the left floor tile, make institute
Stating the second conveyer mechanism 68 drives first conveyer mechanism 64 to work, and floor tile is transported to the left, by controlling the top
Mechanism 60 is risen, the system for compacting 61 is made to drop to the ground that reclines, is compacted the floor tile being laid with.
Valuably, bottom chamber 52 described in two groups is opened in the bottom position of the fuselage 10, in the bottom chamber 52
It is installed with the second fixed link 51, first connecting rod 11 is hinged on the periphery of the second fixed link 51 described in two groups, described in two groups
Rotation is equipped with idler wheel 12 between one connecting rod 11, is embedded with first motor 56, first electricity in the rear wall of the described 4th sliding chamber 55 admittedly
Machine 56 is connected by power the screw rod 54 that front and back extends, and sliding is equipped with the first slide bar 53, the screw rod 54 in the described 4th sliding chamber 55
It is threadedly coupled with first slide bar 53, the 53 front side extension of the first slide bar is protruded into the bottom chamber 52 and its end
It abuts with the first connecting rod 11, is worked by the first motor 56, rotate the screw rod 54, make first slide bar 53
Decline rotates the first connecting rod 11, declines the idler wheel 12, is compacted the floor tile being laid with.
Valuably, rotation is equipped with the first song that left and right extends between the first crank chamber 50 and the second crank chamber 13
Arbor 14 is embedded with the second motor 49, second motor 49 and first crank in the left wall of the first crank chamber 50 admittedly
Axis 14 is connected by power, and first crank axle 14 rotates on the periphery of the bending part in the second crank chamber 13 is equipped with the
One axle sleeve 15, the bottom end of first axle sleeve 15 are installed with the first push rod 16, and sliding is equipped with the in the described first sliding chamber 20
One sliding block 21,16 lower extension of the first push rod point protrudes into the described first sliding chamber 20 and its end and first sliding block
21 are fixedly connected, and the right side opening of the described first sliding chamber 20 is equipped with glue chamber 17, and the rear wall of the glue chamber 17 is opening design, institute
It states to be connected between glue chamber 17 and the described first sliding chamber 20 and offers small chamber 19, be installed with the first check valve in the small chamber 19
18, the described first sliding 20 bottom of chamber offers the first long chamber 23, and the glue in the glue chamber 17 is flowed by the small chamber 19
In described first sliding chamber 20, is worked by second motor 49, rotate first crank axle 14, make first axle sleeve
15 rotations, make first push rod 16 drive 21 slide downward of the first sliding block, enter glue in the described first long chamber 23.
Valuably, it is installed with the first fixed link 24 on the bottom wall of the fuselage 10, is offered in first fixed link 24
Second long chamber 25, the second long chamber 25 are connected to the described first long chamber 23, and the upper wall of the second long chamber 25 is equipped with opening, institute
It states and is installed with second one-way valve 22 in the first long chamber 23, glue is entered in the described second long chamber 25 by the described first long chamber 23, glue
Water is dropped on the ground for needing to be laid with from the opening of the described second long chamber 25.
Valuably, rotation is equipped with the second crank axle 39 extended up and down, the third crank in the third crank chamber 38
Admittedly third motor 40 is embedded in the upper wall of chamber 38, the third motor 40 is connected by power with second crank axle 39, and described the
Two crank axles 39 rotate on the periphery of the bending part in the third crank chamber 38 is equipped with the second axle sleeve 37, second axis
The left distal end of set 37 is installed with the second push rod 36, and 36 left side extension of the second push rod point protrudes into the sliding chamber 35 of the third
And its end is installed with the second sliding block 34, the sliding of the second sliding block 34 is located in the sliding chamber 35 of the third, the sliding chamber of the third
It is connected between 35 and the described second sliding chamber 30 and offers floor tile chamber 47, the rear wall of the floor tile chamber 47 is opening design, passes through institute
The work of third motor 40 is stated, second crank axle 39 is rotated, second axle sleeve 37 is rotated, makes second push rod 36
It drives second sliding block 34 to slide to the left, floor tile is transported to first conveyer mechanism 64 from the floor tile chamber 47.
Valuably, the second belt chamber 45, second crank axle 39 are offered at 38 top position of third crank chamber
It upwardly extends and partially protrudes into the second belt chamber 45 and be installed with first pulley 43, the second belt chamber 45 on its periphery
Interior rotation is equipped with the first transmission shaft 33 extended up and down, part of first transmission shaft 33 in the second belt chamber 45
It is installed with first pulley 43 on periphery, is connected between first pulley 43 described in two groups by the first conveyer belt 44, the floor tile chamber
47 bottom connection offers belt chamber 26, and rotation is equipped with second connecting rod 27 in the belt chamber 26, the second connecting rod 27
The second belt wheel 28 is installed on periphery, 33 downward extension portion of the first transmission shaft protrudes into the belt chamber 26 and its periphery
On be installed with the second belt wheel 28, connected between two group of second belt wheel 28 by the second conveyer belt 29, pass through the third electricity
Machine 40 works, and rotates the second crank axle 39, rotates the first pulley 43, and first conveyer belt 44 is made to drive described the
The rotation of one transmission shaft 33, rotates the second belt wheel 28, rotates the second conveyer belt 29, floor tile is transported from right to left.
Valuably, connection offers the second sliding chamber 30 at the top of the belt chamber 26, and sliding is equipped in the described second sliding chamber 30
Third sliding block 32, first crank axle 14 rotates on the periphery of the bending part in the first crank chamber 50 is equipped with third
Axle sleeve 48,48 bottom end of third axle sleeve are installed with third push rod 31, the third push rod 31 extend downwardly protrude into it is described
In second sliding chamber 30 and its end is fixedly connected with the third sliding block 32, by second motor 49 work, makes described the
The rotation of one crank axle 14, rotates the third axle sleeve 48, the third push rod 31 is made to drive the third sliding block 32 to downslide
It is dynamic, it pushes down on floor tile and is laid with.
Valuably, first crank axle 14 or so extends outside the fuselage 10 and its end is installed with wheel 46,
At 10 left and right sides position of fuselage rotation be equipped with third connecting rod 42, wheel 46 described in two groups be installed in two groups described in third
42 end of connecting rod is worked by second motor 49, rotates first crank axle 14, is rotated the wheel 46, is made
The fuselage 10 moves.
When being worked by first motor 56 in use, this equipment is placed on the ground for needing to be laid with floor tile, make first sliding
Bar 53 declines, and rotates first connecting rod 11, so that idler wheel 12 is dropped to fitting ground, is worked by the second motor 49, makes the first song
Arbor 14 is rotated with motor car wheel 46, so that this equipment is advanced, is poured into glue into glue chamber 17, is driven and is slided by the first crank axle 14
Block mechanism 63 work, glue is transported to the first fixed link 24, make glue from the opening of the second long chamber 25 drippage on the ground, to
It is put into the floor tile that heap is folded in floor tile chamber 47, is worked by third motor 40, the second crank axle 39 is made to drive 37 turns of the second axle sleeve
It is dynamic, make the second push rod 36 that the second sliding block 34 be driven to slide to the left, pushes the floor tile in floor tile chamber 47 to second conveyer belt 29, pass through
Second crank axle 39 drives the work of the second conveyer mechanism 68, and the first conveyer mechanism 64 is made to work, will be on the second conveyer belt 29
The transport of floor tile right-to-left side by side in a row, drive third axle sleeve 48 to rotate by the first crank axle 14, make third push rod 31
32 slide downward of third sliding block is driven, the floor tile arranged on the second conveyer belt 29 is pushed down on, completes the laying of floor tile.
The beneficial effects of the present invention are: this equipment is made the second pushing mechanism work, floor tile is pushed away by control power mechanism
The first pushing mechanism is set to work, by what is arranged by controlling crank mechanism to the second conveyer belt, and by floor tile marshalling
Floor tile is pushed on ground, and the floor tile being then laid with by system for compacting compacting, this equipment can be laid with muti-piece floor tile simultaneously, greatly
The speed for being laid with floor tile is increased greatly, and avoids the problem of artificial laying is caused laying speed to reduce by physical exertion,
This equipment can work long hours, and improve efficiency, save cost of labor, liberate labour, be more suitable on a large scale
It is laid with work.
Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design
To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention
It is subject to claims appended hereto.