CN108748522A - A kind of anti-corrosion method of the timber based on light guide techniques - Google Patents
A kind of anti-corrosion method of the timber based on light guide techniques Download PDFInfo
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- CN108748522A CN108748522A CN201810757069.7A CN201810757069A CN108748522A CN 108748522 A CN108748522 A CN 108748522A CN 201810757069 A CN201810757069 A CN 201810757069A CN 108748522 A CN108748522 A CN 108748522A
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- space
- fixedly connected
- timber
- block
- hydraulic
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27K—PROCESSES, APPARATUS OR SELECTION OF SUBSTANCES FOR IMPREGNATING, STAINING, DYEING, BLEACHING OF WOOD OR SIMILAR MATERIALS, OR TREATING OF WOOD OR SIMILAR MATERIALS WITH PERMEANT LIQUIDS, NOT OTHERWISE PROVIDED FOR; CHEMICAL OR PHYSICAL TREATMENT OF CORK, CANE, REED, STRAW OR SIMILAR MATERIALS
- B27K3/00—Impregnating wood, e.g. impregnation pretreatment, for example puncturing; Wood impregnation aids not directly involved in the impregnation process
- B27K3/02—Processes; Apparatus
- B27K3/12—Impregnating by coating the surface of the wood with an impregnating paste
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27K—PROCESSES, APPARATUS OR SELECTION OF SUBSTANCES FOR IMPREGNATING, STAINING, DYEING, BLEACHING OF WOOD OR SIMILAR MATERIALS, OR TREATING OF WOOD OR SIMILAR MATERIALS WITH PERMEANT LIQUIDS, NOT OTHERWISE PROVIDED FOR; CHEMICAL OR PHYSICAL TREATMENT OF CORK, CANE, REED, STRAW OR SIMILAR MATERIALS
- B27K2240/00—Purpose of the treatment
- B27K2240/20—Removing fungi, molds or insects
Abstract
The invention discloses a kind of anti-corrosion methods of the timber based on light guide techniques, including conveyer belt, it is provided with a supporting table on front side of the conveyer belt, a lifting space is provided in the supporting table, it is provided with a support column on rear side of the conveyer belt, a lifting groove is provided in the support column, a movable block is slidably connected in the lifting groove, the movable block front end face is fixedly connected with a mobile bar, it is fixedly connected with the first fixed link in the mobile bar front end, it is provided with a hydraulic force mechanism in first fixed link, it is provided with a clamp system on front side of first fixed link.This apparatus structure is simple, simple operation, in present invention work, quickly can completely complete to smear work to the anti-corrosion of timber, and smear uniformly preservative, ensure that processing quality, whole mechanical manipulation improve processing efficiency.
Description
Technical field
The present invention relates to the mothproof field of anti-corrosion, the anti-corrosion method of specially a kind of timber based on light guide techniques.
Background technology
Currently, with the development of science and technology, the development of society, people are increasing to the pursuit of woodwork, but the life of timber
The consumption of the less upper timber of production, thus it is particularly important to the mothproof processing of the anti-corrosion of timber, the usage time of timber can be extended, carried
The service life of high timber, but artificial mopping is mostly used greatly to the preservative treatment of timber at this stage, significantly increase workload
And working efficiency is not high, and be easy to cause to smear uneven and processing quality is caused to decline when machinery smearing.
Invention content
The purpose of the present invention is to provide a kind of anti-corrosion methods of the timber based on light guide techniques, to solve above-mentioned background skill
The problem of being proposed in art.
To achieve the above object, the present invention provides the following technical solutions:A kind of anti-corrosion side of the timber based on light guide techniques
Method, including conveyer belt, the conveyer belt front side is provided with a supporting table, a lifting space is provided in the supporting table, described
It lifts space aft bulkhead and is connected to free surrounding space, an elevating lever, the lifting are fixedly connected between the left hand end wall of the lifting space
A sliding shoe is slidably connected on club shaft, the sliding shoe lower face is fixedly connected with a sliding bar, the sliding club shaft
On slidably connect a movable slider, lifting space lower end wall is provided with a T shape sliding grooves, and the sliding bar lower end is through T shapes cunning
It moves slot upper end wall and in T shape sliding grooves, the sliding bar lower end is fixedly connected with a sliding block, the sliding block and T shapes
Sliding groove is slidably connected, and lifting space front bulkhead is fixedly connected with a lifting motor, the lifting motor rear end face
Be connected by power has a sliding axle, the sliding shaft rear end to be fixedly connected with an elevator, one liter is provided in the lifting space
Column drops, and the lifting column lower end is slidably connected through elevator upper and lower end face and with elevator, and the lifting column upper end, which is fixed, to be connected
Be connected to a link block, the link block lower face is fixedly connected with a connecting spring, the connecting spring lower end on elevator
End face is fixedly connected, and the link block rear end face is rotatably connected to a connecting shaft, and the connection shaft rear end movable slider front end face turns
Dynamic connection, the movable slider rear end face are fixedly connected with head rod, and the head rod left side is fixedly connected with the
Two connecting rods, you are fixed with a brush for second connecting rod lower face, and the supporting table aft bulkhead is fixedly connected with a undertaking
Block, the receiving block rear end are fixedly connected with a coating case, and a painting material space, the painting material space are provided in the coating case
Upper end wall is connected to free surrounding space with right end wall, and painting material space front and back end wall is fixedly connected with a baffle, the biography between right side
It send band rear side to be provided with a support column, a lifting groove is provided in the support column, the lifting groove front bulkhead connection is extraneous empty
Between, a movable block is slidably connected in the lifting groove, the movable block front end face is fixedly connected with a mobile bar, the movement
Bar front end is fixedly connected with the first fixed link through lifting groove front bulkhead and in free surrounding space in the mobile bar front end,
First fixed link left side is provided with a promotion space, and the promotion space right side is fixedly connected with a pushing motor,
Pushing motor left side be connected by power has an impeller-hub, and the second fixed link is provided on the left of first fixed link, described
The first driven space is provided in second fixed link, it is extraneous empty that the first driven space right end wall is provided with right end wall connection
Between connectivity slot, the first driven space left end wall is rotatably connected to a driven column, and the driven column right end runs through connectivity slot
Left end wall and in the connectivity slot, the impeller-hub left end through push space left end wall with connectivity slot left end wall and with driven column
Threaded engagement connects, and the driven column being located in the first driven space is fixedly connected with the first belt pulley, described to be located at connection
Driven column front end face in slot is provided with a spring groove, and the spring groove aft bulkhead is fixedly connected with a compressed spring, the pressure
Contracting spring at front end is fixedly connected with a trapezoid block, and front bulkhead is provided with a limiting slot on the left of the connectivity slot, before the trapezoid block
End is provided with a pushing mechanism, first fixed link through limiting slot aft bulkhead and in limiting slot in the limiting slot
It is inside provided with a hydraulic force mechanism, a clamp system is provided on front side of first fixed link, described first fixes rod rear end
Wall is provided with an indication mechanism.
Steps are as follows for the method:
First, timber is sent on the downside of clamp system by conveyer belt work, and hydraulic force mechanism work drives driver plate to transport to the left
Dynamic, clamp system falls to conveyer belt upper surface under the action of device its own gravity, and pushing motor works at this time, to drive
Impeller-hub works, to make driven column move right, until the first fixed link left side is contacted with the second fixed link right side, from
And the first clamping plate and second is driven to clamp board clamping timber, working between the first electromagnet and the second electromagnet generates suction,
Trapezoid block front end is located in limiting slot, and hydraulic force mechanism work, driving driver plate to move right certain distance makes clamping mechanism
Operating position is risen to, lifting motor works at this time, drives sliding axle rotation, to drive elevator to rotate, risen to drive
Column rotation is dropped, to drive link block to rotate, under the transmission of connecting shaft, sliding shoe is driven to move downward, and under sliding shoe
Link block, which first compresses connecting spring, during drop draws high afterwards until being pulled up to maximum, and brush lower end hairbrush drops to painting at this time
Material space, to make brush lower end hairbrush be full of preservative;
Then, driving motor works on, and the rotation of link block drives sliding shoe to move right, to drive sliding bar to transport to the right
Dynamic, since the effect of link block makes sliding shoe ensure horizontal movement while moving right, brush hairbrush is on timber at this time
Preservative is smeared in end face, when sliding shoe moves to right end, the smearing to timber upper surface is completed, with the continuation of link block
Rotation, sliding bar is motionless, and sliding shoe moves upwards on sliding bar, is above moved on brush to drive, at this time hydraulic thrust motivation
Structure works, and driver plate is made to continue to move right, and to drive clamping mechanism to move upwards, makes under timber upper surface moment and brush
Moment contact is held, when sliding shoe moves to the top, hydraulic force mechanism is stopped, with being rotated further for link block, band
Dynamic sliding shoe moves downward, and to drive sliding bar to move downward, is protected to make brush carry out secondary smearing to timber upper surface
Card is smeared uniform, and when sliding shoe is located at left end, lifting motor is stopped, hydraulicefficiency elevation structure work drive driver plate to
Left movement makes clamping mechanism decline, to drive timber to drop to operating position, during decline, and the first electromagnet and
It working between two electromagnet and generates repulsion, trapezoid block is retracted in spring groove, pushing motor work drives impeller-hub work, to
It drives driven column to rotate, the second clamping plate is driven to rotate under the transmission of tooth belt, to drive timber to rotate 180
Degree keeps timber lower end face-up, and lifting motor works on, and repeats the above-mentioned smearing work to timber upper surface, completes to timber
The preservative of lower face is smeared;
Finally, when sliding shoe drives sliding bar to turn again to the leftmost side, lifting motor stop motion, the first electromagnet and second
It working between electromagnet and generates suction, trapezoid block front end is located in limiting slot, and pushing motor work drives impeller-hub work, to
It drives driven column to move downward, under the cooperation of hydraulic force mechanism and clamping mechanism, timber is placed on conveyer belt, is completed
To the anticorrosive work of timber, conveyer belt work drives another block of timber to come below clamping mechanism, repeats the above steps.
Preferably, the pushing mechanism includes pushing plate, the pushing plate left end is fixedly connected with an inclination version, described
Pushing plate lower face is symmetrical to be fixedly connected with the first electromagnet, and the limiting slot lower end wall right side is symmetrical to be fixedly connected
There is the second electromagnet, first fixation being fixedly connected with limiting slot lower end wall is provided between two piece of second electromagnet
Block is provided with fixing groove in the fixed block, first support bar is provided in the fixing groove, the first support bar upper end is passed through
It wears fixing groove upper end wall and is fixedly connected with pushing plate lower face, the first support bar lower end is fixedly connected with one and fixing groove
The fixed plate being slidably connected, the repulsion between first electromagnet and the second electromagnet are much larger than the elastic force of compressed spring.
Preferably, the hydraulic force mechanism includes hydraulic space, a hydraulic pressure is slidably connected in the hydraulic space
Plate, the hydraulic plate left side are fixedly connected with a hydraulic stem, a transmission space, institute are provided in the hydraulic space right end wall
Hydraulic stem right end is stated through hydraulic space right end wall and in transmission space, a company is provided in the hydraulic space upper end wall
Lead to the hydraulic pipeline of hydraulic space at left and right sides of hydraulic plate, a hydraulic pump is provided in the hydraulic pipeline, the hydraulic stem is right
End is fixedly connected with a driver plate with transmission space, and the transmission space upper end wall is provided with the transmission of a connection free surrounding space
Slot, the driver plate upper end is through driving groove and is located at free surrounding space, and the lifting groove upper end wall is fixedly connected with a fixed pulley,
The driver plate upper end is fixedly connected with a chain, the chain upper end through support column right side and across fixed pulley upper end and
It is fixedly connected with upper surface on the left of the first fixed link.
Preferably, the clamp system includes the first support arm, before first support arm rear end and the first fixing axle
End face is fixedly connected, and first support arm front end is fixedly connected with the first gripping block, the setting of first gripping block left side
There is the first clamping space left end wall described in the first clamping space to be connected to free surrounding space, the first clamping space right end wall rotation connects
It is connected to a rotation axis, the rotation axis left side is fixedly connected with the first clamping plate, is fixed on the left of the second fixed link front end face
It is connected with the second support arm, the second support arm front end face is fixedly connected with the second gripping block, the second gripping block right end
Face is provided with the second clamping space, and second clamping space right side is connected to free surrounding space, the second clamping space left end
The second driven space is provided in wall, the second driven space left end wall is rotatably connected to a rotary shaft, and the rotary shaft is right
Through the second driven space right side and in the second clamping space, the rotary shaft right end is fixedly connected with the second clamping at end
Plate, is fixedly connected with the second belt pulley on the rotary shaft axis body being located in the second driven space, first belt pulley with
It is connected by belt transmission between second belt pulley.
Preferably, the first fixed link is far from the second fixed link right side under described device original state, at the beginning of described device
Beginning state downslide motion block is located at the elevating lever leftmost side.
Preferably, the indication mechanism includes display screen, it is provided with a data block in the first fixed link aft bulkhead,
The display screen is connect with data block by data line.
Compared with prior art, the beneficial effects of the invention are as follows:In present invention work, timber is sent to by conveyer belt work
On the downside of clamp system, hydraulic force mechanism work drives driver plate to move downward, clamping machine under the action of device its own gravity
Structure falls to conveyer belt upper surface, and pushing motor works at this time, to drive impeller-hub to work, to make driven column transport to the right
It is dynamic, until the first fixed link left side is contacted with the second fixed link right side, to drive the first clamping plate and the second clamping plate
Timber is clamped, works between the first electromagnet and the second electromagnet and generates suction, trapezoid block front end is located in limiting slot, hydraulic thrust
Motivation structure works, and driving driver plate to move right certain distance makes clamping mechanism rise to operating position, at this time lifting motor work
Make, drives sliding axle rotation, to drive elevator to rotate, to drive lifting column to rotate, to drive link block to rotate,
Under the transmission of connecting shaft, sliding shoe is driven to move downward, and link block first compresses connecting spring during sliding shoe declines
After draw high until be pulled up to maximum, brush lower end hairbrush drops to painting material space at this time, to make brush lower end hairbrush be full of
Preservative, driving motor work on, and the rotation of link block drives sliding shoe to move right, to drive sliding bar to transport to the right
Dynamic, since the effect of link block makes sliding shoe ensure horizontal movement while moving right, brush hairbrush is on timber at this time
Preservative is smeared in end face, when sliding shoe moves to right end, the smearing to timber upper surface is completed, with the continuation of link block
Rotation, sliding bar is motionless, and sliding shoe moves upwards on sliding bar, is above moved on brush to drive, at this time hydraulic thrust motivation
Structure works, and driver plate is made to continue to move right, and to drive clamping mechanism to move upwards, makes under timber upper surface moment and brush
Moment contact is held, when sliding shoe moves to the top, hydraulic force mechanism is stopped, with being rotated further for link block, band
Dynamic sliding shoe moves downward, and to drive sliding bar to move downward, is protected to make brush carry out secondary smearing to timber upper surface
Card is smeared uniform, and when sliding shoe is located at left end, lifting motor is stopped, hydraulicefficiency elevation structure work drive driver plate to
Left movement makes clamping mechanism decline, to drive timber to drop to operating position, during decline, and the first electromagnet and
It working between two electromagnet and generates repulsion, trapezoid block is retracted in spring groove, pushing motor work drives impeller-hub work, to
It drives driven column to rotate, the second clamping plate is driven to rotate under the transmission of tooth belt, to drive timber to rotate 180
Degree keeps timber lower end face-up, and lifting motor works on, and repeats the above-mentioned smearing work to timber upper surface, completes to timber
The preservative of lower face is smeared, when sliding shoe drives sliding bar to turn again to the leftmost side, lifting motor stop motion, and the first electricity
It works between magnet and the second electromagnet and generates suction, trapezoid block front end is located in limiting slot, and pushing motor work, which drives, to be pushed
Axis works, and to drive driven column to move downward, under the cooperation of hydraulic force mechanism and clamping mechanism, timber is placed and is passed
Send and take, complete to the anticorrosive work of timber, conveyer belt work drives another block of timber to come below clamping mechanism, repeat with
Upper step, this apparatus structure is simple, simple operation, quickly can completely complete to smear work to the anti-corrosion of timber, and to anti-
Rotten agent is smeared uniformly, ensure that processing quality, whole mechanical manipulation improve processing efficiency.
Description of the drawings
Fig. 1 is a kind of present invention looks up structural representation of the anti-corrosion method entirety complete section of the timber based on light guide techniques of the present invention;
Fig. 2 is that a kind of main view enlarged structure of anti-corrosion method the first fixed link complete section of the timber based on light guide techniques of the present invention is shown
It is intended to;
Fig. 3 is a kind of left view structural representation of the anti-corrosion method supporting table complete section of the timber based on light guide techniques of the present invention;
Fig. 4 is a kind of main structure diagram of the anti-corrosion method coating case complete section of the timber based on light guide techniques of the present invention;
Fig. 5 is that a kind of enlarged structure of looking up of anti-corrosion method pushing mechanism complete section of the timber based on light guide techniques of the present invention is illustrated
Figure.
Specific implementation mode
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
- 5 are please referred to Fig.1, a kind of embodiment provided by the invention:A kind of anti-corrosion method of the timber based on light guide techniques,
Including conveyer belt 1,1 front side of the conveyer belt is provided with a supporting table 2, and a lifting space 3, institute are provided in the supporting table 2
Lifting 3 aft bulkhead of space connection free surrounding space is stated, an elevating lever 5 is fixedly connected between 3 left hand end wall of lifting space, it is described
A sliding shoe 49 is slidably connected on 5 body of rod of elevating lever, 49 lower face of the sliding shoe is fixedly connected with a sliding bar 63, described
A movable slider 64 is slidably connected on 63 body of rod of sliding bar, lifting 3 lower end wall of space is provided with a T shapes sliding groove 68, the cunning
Through 68 upper end wall of T shapes sliding groove and in T shapes sliding groove 68,63 lower end of the sliding bar is fixedly connected with 63 lower end of lever
One sliding block 67, the sliding block 67 are slidably connected with T shapes sliding groove 68, and 3 front bulkhead of lifting space is fixedly connected
There are a lifting motor 53,53 rear end face be connected by power of the lifting motor to there is a sliding axle 52,52 rear end of the sliding axle to fix
It is connected with an elevator 51, a lifting column 50 is provided in the lifting space 3, elevator 51 is run through in 50 lower end of the lifting column
It upper and lower end face and is slidably connected with elevator 51,50 upper end of the lifting column is fixedly connected with a link block 61, the link block
61 lower faces are fixedly connected with a connecting spring 60, and 60 lower end of the connecting spring is fixedly connected with 51 upper surface of elevator, institute
It states 61 rear end face of link block and is rotatably connected to a connecting shaft 62,62 rear end movable slider of the connecting shaft, 64 front end face is rotatablely connected,
64 rear end face of the movable slider is fixedly connected with head rod 6, and 6 left side of the head rod is fixedly connected with the second company
Extension bar 31, you are fixed with a brush 14 for 31 lower face of the second connecting rod, and 2 aft bulkhead of the supporting table is fixedly connected with one and holds
Block 66 is connect, 66 rear end of the receiving block is fixedly connected with a coating case 8, a painting material space 65, institute are provided in the coating case 8
It states and applies 65 upper end wall of material space and be connected to free surrounding space with right end wall, be fixedly connected between end wall right side before and after the painting material space 65
One baffle 69,1 rear side of the conveyer belt is provided with a support column 34, a lifting groove 33 is provided in the support column 34, described
33 front bulkhead of lifting groove is connected to free surrounding space, slidably connects a movable block 32 in the lifting groove 33, before the movable block 32
End face is fixedly connected with a mobile bar 35, and 35 front end of the mobile bar is through 33 front bulkhead of lifting groove and is located in free surrounding space,
The first fixed link 42 is fixedly connected in 35 front end of the mobile bar, 42 left side of the first fixed link is provided with promotion sky
Between 29,29 right side of promotion space is fixedly connected with a pushing motor 30,30 left side be connected by power of the pushing motor
There is an impeller-hub 25, first fixed link, 42 left side is provided with the second fixed link 4, and the is provided in second fixed link 4
One driven space 16, the first driven space, 16 right end wall are provided with the connectivity slot 18 of right end wall connection free surrounding space, institute
It states 16 left end wall of the first driven space and is rotatably connected to a driven column 15,15 right end of driven column runs through 18 left end wall of connectivity slot
And in the connectivity slot 18,25 left end of the impeller-hub through push 29 left end wall of space with 18 left end wall of connectivity slot and with it is driven
15 threaded engagement of column connects, and the driven column 15 being located in the first driven space 16 is fixedly connected with the first belt pulley 17, institute
Rheme is provided with a spring groove 20 in 15 front end face of driven column in connectivity slot 18, and 20 aft bulkhead of the spring groove is fixedly connected with
One compressed spring 21,21 front end of the compressed spring are fixedly connected with a trapezoid block 22, and 18 left side front bulkhead of the connectivity slot is set
It is equipped with a limiting slot 19,22 front end of the trapezoid block is through 19 aft bulkhead of limiting slot and in limiting slot 19, the limiting slot
It is provided with a pushing mechanism 70 in 19, a hydraulic force mechanism 79 is provided in first fixed link 42, described first fixes
42 front side of bar is provided with a clamp system 59, and 42 aft bulkhead of the first fixed link is provided with an indication mechanism 83.
Steps are as follows for the method:
First, timber is sent to 59 downside of clamp system by the work of conveyer belt 1, and hydraulic force mechanism 79 works, and drives driver plate
40 move downward, and clamp system 59 falls to 1 upper surface of conveyer belt under the action of device its own gravity, at this time pushing motor 30
Work, to drive impeller-hub 25 to work, to make driven column 15 move right, until 42 left side of the first fixed link and second
4 right side of fixed link contacts, to drive the first clamping plate 47 and the second clamping plate 13 clamping timber, the first electromagnet 76 and the
It works between two electromagnet 75 and generates suction, 22 front end of trapezoid block is located in limiting slot 19, and hydraulic force mechanism 79 works, and drives
Driver plate 40, which moves right certain distance, makes clamping mechanism 59 rise to operating position, and lifting motor 53 works at this time, drives and slides
Moving axis 52 rotates, to drive elevator 51 to rotate, to drive lifting column 50 to rotate, and to drive link block 61 to rotate,
Under the transmission of connecting shaft 62, sliding shoe 49 is driven to move downward, and link block 61 is to connecting bullet during sliding shoe 49 declines
Spring 60, which first compresses, to be drawn high afterwards until being pulled up to maximum, and 14 lower end hairbrush of brush, which drops to, at this time applies material space 65, to make brush
Sub 14 lower end hairbrush are full of preservative;
Then, driving motor 53 works on, and the rotation of link block 61 drives sliding shoe 64 to move right, to drive sliding bar
63 move right, since the effect of link block 61 makes sliding shoe 64 ensure horizontal movement while moving right, brush at this time
14 hairbrush smear preservative in timber upper surface, when sliding shoe 64 moves to right end, complete the smearing to timber upper surface,
With being rotated further for link block 61, sliding bar 63 is motionless, and sliding shoe 64 moves upwards on sliding bar 63, to drive brush
Upper movement on 14, at this time hydraulic force mechanism 79 work, make driver plate 40 continue to move right, to drive clamping mechanism 59 to
Upper movement makes the timber upper surface moment be contacted with the 14 lower end moment of brush, when sliding shoe 64 moves to the top, hydraulic thrust motivation
Structure 79 is stopped, and with being rotated further for link block 61, drives sliding shoe 64 to move downward, to drive sliding bar 63 to the left
Movement ensures to smear uniformly to make brush 14 carry out secondary smearing to timber upper surface, when sliding shoe 64 is located at left end,
Lifting motor 53 is stopped, and the work of hydraulicefficiency elevation structure 79 drives driver plate 40 to move downward, and clamping mechanism 59 is made to decline, from
And timber is driven to drop to operating position, during decline, work generation between the first electromagnet 76 and the second electromagnet 75
Repulsion retracts trapezoid block 22 in spring groove 20, and the work of pushing motor 30 drives impeller-hub 25 to work, to drive driven column 15
Rotation drives the second clamping plate 13 to rotate under the transmission of tooth belt, makes timber to drive timber to rotate 180 degree
Lower end is face-up, and lifting motor 30 works on, and repeats the above-mentioned smearing work to timber upper surface, completes to timber lower face
Preservative smear;
Finally, when sliding shoe 64 drives sliding bar 63 to turn again to the leftmost side, 53 stop motion of lifting motor, the first electromagnet
76 and second work between electromagnet 75 and generate suction, and 22 front end of trapezoid block is located in limiting slot 19, the work band of pushing motor 30
Dynamic impeller-hub 25 works, to drive driven column 15 to move downward, under the cooperation of hydraulic force mechanism 79 and clamping mechanism 59,
Timber is placed and on conveyer belt 1, completes the anticorrosive work to timber, conveyer belt 1 works, and drives another block of timber to come and steps up
59 lower section of mechanism, repeats the above steps.
Valuably, the pushing mechanism 70 includes pushing plate 78, and 78 left end of the pushing plate is fixedly connected with an inclination version
77,78 lower face of the pushing plate is symmetrical to be fixedly connected with the first electromagnet 76, and 19 lower end wall of limiting slot right side is left
The right side is symmetrically fixedly connected with the second electromagnet 75, and one and 19 lower end wall of limiting slot are provided between two piece of second electromagnet 75
The first fixed block 74 being fixedly connected is provided with fixing groove 71 in the fixed block 74, first is provided in the fixing groove 71
Supporting rod 73,73 upper end of the first support bar is through 71 upper end wall of fixing groove and is fixedly connected with 78 lower face of pushing plate, institute
State 73 lower end of first support bar and be fixedly connected with a fixed plate 72 being slidably connected with fixing groove 71, first electromagnet 76 with
Repulsion between second electromagnet 75 is much larger than the elastic force of compressed spring 21, effect be under the action of tilting version 77, will be terraced
Shape block 22 pushes back spring groove 20, and driven column 15 is made to be converted into rotary motion from side-to-side movement.
Valuably, the hydraulic force mechanism 79 includes hydraulic space 54, and one is slidably connected in the hydraulic space 54
Hydraulic plate 36,36 left side of the hydraulic plate are fixedly connected with a hydraulic stem 39, are provided in 54 right end wall of the hydraulic space
One transmission space 41,39 right end of the hydraulic stem is through 54 right end wall of hydraulic space and in transmission space 41, the hydraulic pressure
The hydraulic pipeline 38 of 36 left and right sides hydraulic space 54 of a connection hydraulic plate, the hydraulic pipeline are provided in 54 upper end wall of space
A hydraulic pump 37 is provided in 54,39 right end of the hydraulic stem is fixedly connected with the driver plate 40 of one and transmission space 41, described
41 upper end wall of transmission space is provided with the driving groove 80 of a connection free surrounding space, 40 upper end of the driver plate through driving groove 80 and
Positioned at free surrounding space, 33 upper end wall of the lifting groove is fixedly connected with a fixed pulley 55, and 40 upper end of the driver plate is fixedly connected
Have a chain 56,56 upper end of the chain through 34 right side of support column and across 55 upper end of fixed pulley and with the first fixed link 42
Left side upper surface is fixedly connected, and effect is that the rise and fall fortune of the first fixed link 42 is realized under the side-to-side movement of hydraulic stem 39
It is dynamic.
Valuably, the clamp system 59 includes the first support arm 43, and 43 rear end of the first support arm is fixed with first
42 front end face of axis is fixedly connected, and 43 front end of the first support arm is fixedly connected with the first gripping block 46, first gripping block
46 left sides are provided with 44 left end wall of the first clamping space described in the first clamping space 44 and are connected to free surrounding space, and described first clamps
44 right end wall of space is rotatably connected to a rotation axis 45, and 45 left side of the rotation axis is fixedly connected with the first clamping plate 47, described
It is fixedly connected with the second support arm 57 on the left of second fixed link, 4 front end face, 57 front end face of the second support arm is fixedly connected with
Second gripping block 58,58 right side of the second gripping block are provided with the second clamping space 12, and second clamping space 12 is right
End face is connected to free surrounding space, is provided with the second driven space 11 in second clamping space, 12 left end wall, described second is driven
11 left end wall of space is rotatably connected to a rotary shaft 9, and 9 right end of the rotary shaft is through 11 right side of the second driven space and is located at
In second clamping space 12,9 right end of the rotary shaft is fixedly connected with the second clamping plate 13, described to be located at the second driven space 11
It is fixedly connected with the second belt pulley 10 on interior 9 axis body of rotary shaft, leads between first belt pulley, 17 and second belt pulley 10
Cross belt transmission connection.
Valuably, the first fixed link 4 is far from 42 right side of the second fixed link under described device original state, at the beginning of described device
Beginning state downslide motion block 49 is located at 5 leftmost side of elevating lever, and effect is to increase by 42 right side of 4 left end of the first fixed link and the second fixed link
The distance between end.
Valuably, the indication mechanism 83 includes display screen 84, and a number is provided in 42 aft bulkhead of the first fixed link
According to block 81, the display screen 84 is connect with data block 81 by data line 82, and effect is the working condition of display device.
Specifically used mode:In present invention work, timber is sent to 59 downside of clamp system, hydraulic pressure by the work of conveyer belt 1
Pushing mechanism 79 works, and drives driver plate 40 to move downward, clamp system 59 falls to biography under the action of device its own gravity
Send band 1 upper surface, pushing motor 30 works at this time, to drive impeller-hub 25 to work, to make driven column 15 move right, directly
It is contacted to 42 left side of the first fixed link with 4 right side of the second fixed link, to drive the first clamping plate 47 and the second clamping plate
13 clamp timber, work between the first electromagnet 76 and the second electromagnet 75 and generate suction, 22 front end of trapezoid block is located at limiting slot
In 19, hydraulic force mechanism 79 works, and driving driver plate 40 to move right certain distance makes clamping mechanism 59 rise to working position
It sets, lifting motor 53 works at this time, and sliding axle 52 is driven to rotate, to drive elevator 51 to rotate, to drive lifting column 50
Rotation under the transmission of connecting shaft 62, drives sliding shoe 49 to move downward to drive link block 61 to rotate, and in sliding shoe
Link block 61, which first compresses connecting spring 60, during 49 declines draws high afterwards up to being pulled up to maximum, at this time 14 lower end of brush hair
Brush, which drops to, applies material space 65, and to make 14 lower end hairbrush of brush be full of preservative, driving motor 53 works on, link block 61
Rotation drive sliding shoe 64 move right, to drive sliding bar 63 to move right, since the effect of link block 61 makes sliding
Block 64 ensures horizontal movement while moving right, and 14 hairbrush of brush smears preservative in timber upper surface at this time, works as sliding
When block 64 moves to right end, the smearing to timber upper surface is completed, with being rotated further for link block 61, sliding bar 63 is not
Dynamic, sliding shoe 64 moves upwards on sliding bar 63, is above moved on brush 14 to drive, at this time 79 work of hydraulic force mechanism
Make, makes driver plate 40 continue to move right, to drive clamping mechanism 59 to move upwards, make timber upper surface moment and brush 14
The lower end moment contacts, and when sliding shoe 64 moves to the top, hydraulic force mechanism 79 is stopped, with the continuation of link block 61
Rotation, drive sliding shoe 64 move downward, to drive sliding bar 63 to move downward, to make brush 14 to timber upper surface into
The secondary smearing of row ensures to smear uniformly, and when sliding shoe 64 is located at left end, lifting motor 53 is stopped, hydraulicefficiency elevation structure
79 work drive driver plate 40 to move downward, and so that clamping mechanism 59 is declined, to drive timber to drop to operating position, are declining
In the process, it works between the first electromagnet 76 and the second electromagnet 75 and generates repulsion, trapezoid block 22 is retracted in spring groove 20, is pushed away
The dynamic work of motor 30 drives impeller-hub 25 to work, and to drive driven column 15 to rotate, second is driven under the transmission of tooth belt
Clamping plate 13 rotates, and keeps timber lower end face-up to drive timber to rotate 180 degree, lifting motor 30 works on, weight
The multiple above-mentioned smearing work to timber upper surface is completed to smear the preservative of timber lower face, be slided when sliding shoe 64 drives
When bar 63 turns again to the leftmost side, 53 stop motion of lifting motor, work production between the first electromagnet 76 and the second electromagnet 75
Raw suction, 22 front end of trapezoid block are located in limiting slot 19, and the work of pushing motor 30 drives impeller-hub 25 to work, driven to drive
Column 15 moves downward, and under the cooperation of hydraulic force mechanism 79 and clamping mechanism 59, timber is placed on conveyer belt 1, is completed
To the anticorrosive work of timber, conveyer belt 1 works, and drives another block of timber to come 59 lower section of clamping mechanism, repeats above step, this
Apparatus structure is simple, simple operation, quickly can completely complete to smear work to the anti-corrosion of timber, and smear preservative equal
It is even, it ensure that processing quality, whole mechanical manipulation improve processing efficiency.
It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie
In the case of without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter
From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power
Profit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent requirements of the claims
Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.
Claims (6)
1. a kind of anti-corrosion method of the timber based on light guide techniques, including conveyer belt, it is characterised in that:It is set on front side of the conveyer belt
It is equipped with a supporting table, a lifting space is provided in the supporting table, lifting space aft bulkhead is connected to free surrounding space, described
It is fixedly connected with an elevating lever between lifting space left hand end wall, a sliding shoe is slidably connected on the lifting club shaft, it is described
Sliding shoe lower face is fixedly connected with a sliding bar, and a movable slider is slidably connected on the sliding club shaft, lifts under space
End wall is provided with a T shape sliding grooves, and the sliding bar lower end is described through T shape sliding groove upper end walls and in T shape sliding grooves
Sliding bar lower end is fixedly connected with a sliding block, and the sliding block is slidably connected with T shape sliding grooves, before the lifting space
End wall is fixedly connected with a lifting motor, and the lifting motor rear end face be connected by power has a sliding axle, the sliding shaft rear end
It is fixedly connected with an elevator, a lifting column is provided in the lifting space, the lifting column lower end is above and below elevator
It end face and is slidably connected with elevator, the lifting column upper end is fixedly connected with a link block, and the link block lower face is fixed
It is connected with a connecting spring, the connecting spring lower end is fixedly connected with elevator upper surface, the link block rear end face rotation
It is connected with a connecting shaft, the connection shaft rear end movable slider front end face rotation connection, the movable slider rear end face is fixedly connected with
Head rod, the head rod left side are fixedly connected with the second connecting rod, you are solid for second connecting rod lower face
There are a brush, the supporting table aft bulkhead to be fixedly connected with a receiving block, the receiving block rear end is fixedly connected with a coating surely
Case is provided with a painting material space in the coating case, and coating space upper end wall is connected to free surrounding space, the painting with right end wall
It is fixedly connected with a baffle between end wall right side before and after material space, a support column, the support column are provided on rear side of the conveyer belt
It is inside provided with a lifting groove, the lifting groove front bulkhead is connected to free surrounding space, a movable block is slidably connected in the lifting groove,
The movable block front end face is fixedly connected with a mobile bar, and the mobile bar front end is through lifting groove front bulkhead and positioned at extraneous empty
In, the first fixed link is fixedly connected in the mobile bar front end, first fixed link left side is provided with promotion sky
Between, the promotion space right side is fixedly connected with a pushing motor, and pushing motor left side be connected by power has a promotion
Axis, the first fixed link left side is provided with the second fixed link, the first driven space is provided in second fixed link, described
First driven space right end wall is provided with the connectivity slot of right end wall connection free surrounding space, and the first driven space left end wall turns
Dynamic to be connected with a driven column, the driven column right end is through connectivity slot left end wall and in connectivity slot, the impeller-hub left end
It is connect through promotion space left end wall with connectivity slot left end wall and with driven column threaded engagement, it is described to be located in the first driven space
Driven column be fixedly connected with the first belt pulley, the driven column front end face in connectivity slot is provided with a spring groove, institute
It states spring groove aft bulkhead and is fixedly connected with a compressed spring, the compressed spring front end is fixedly connected with a trapezoid block, the company
Front bulkhead is provided with a limiting slot on the left of straight slot, and the trapezoid block front end is through limiting slot aft bulkhead and in limiting slot, institute
It states and is provided with a pushing mechanism in limiting slot, a hydraulic force mechanism is provided in first fixed link, described first fixes
It is provided with a clamp system on front side of bar, the first fixed link aft bulkhead is provided with an indication mechanism, and steps are as follows for the method:
First, timber is sent on the downside of clamp system by conveyer belt work, and hydraulic force mechanism work drives driver plate to move downward,
Clamp system falls to conveyer belt upper surface under the action of device its own gravity, and pushing motor works at this time, is pushed away to drive
Moving axis works, to make driven column move right, until the first fixed link left side is contacted with the second fixed link right side, to
It drives the first clamping plate and second to clamp board clamping timber, works between the first electromagnet and the second electromagnet and generate suction, ladder
Shape block front end is located in limiting slot, and hydraulic force mechanism work, driving driver plate to move right certain distance makes on clamping mechanism
Operating position is risen to, lifting motor works at this time, drives sliding axle rotation, to drive elevator to rotate, to drive lifting
Column rotates, and to drive link block to rotate, under the transmission of connecting shaft, sliding shoe is driven to move downward, and declines in sliding shoe
Link block, which first compresses connecting spring, in the process draws high afterwards until being pulled up to maximum, and brush lower end hairbrush drops to coating at this time
Space, to make brush lower end hairbrush be full of preservative;Then, driving motor works on, and the rotation of link block drives sliding
Block moves right, to drive sliding bar to move right, since the effect of link block makes sliding shoe be protected while moving right
Horizontal movement is demonstrate,proved, brush hairbrush smears preservative in timber upper surface at this time, when sliding shoe moves to right end, completes to wood
Expect the smearing of upper surface, with being rotated further for link block, sliding bar is motionless, and sliding shoe moves upwards on sliding bar, to
Drive upper movement on brush, hydraulic force mechanism works at this time, and driver plate is made to continue to move right, to drive clamping mechanism to
Upper movement makes the timber upper surface moment be contacted with the brush lower end moment, and when sliding shoe moves to the top, hydraulic force mechanism is stopped
It only works, with being rotated further for link block, drives sliding shoe to move downward, to drive sliding bar to move downward, to make
Brush carries out secondary smearing to timber upper surface and ensures to smear uniformly, and when sliding shoe is located at left end, lifting motor stops work
Make, hydraulicefficiency elevation structure work drives driver plate to move downward, and so that clamping mechanism is declined, to drive timber to drop to working position
It sets, during decline, works between the first electromagnet and the second electromagnet and generate repulsion, trapezoid block is retracted in spring groove,
Pushing motor work drives impeller-hub work, to drive driven column to rotate, drives second to clamp under the transmission of tooth belt
Plate rotates, and keeps timber lower end face-up to drive timber to rotate 180 degree, lifting motor works on, and it is above-mentioned right to repeat
The smearing work of timber upper surface is completed to smear the preservative of timber lower face;Finally, when sliding shoe drives sliding bar again
When returning to the leftmost side, lifting motor stop motion works between the first electromagnet and the second electromagnet and generates suction, before trapezoid block
End is located in limiting slot, and pushing motor work drives impeller-hub work, to drive driven column to move downward, in hydraulic thrust motivation
Under the cooperation of structure and clamping mechanism, timber is placed and on conveyer belt, completes the anticorrosive work to timber, conveyer belt work, band
It moves another block of timber to come below clamping mechanism, repeat the above steps.
2. a kind of anti-corrosion method of timber based on light guide techniques according to claim 1, it is characterised in that:The promotion
Mechanism includes pushing plate, and the pushing plate left end is fixedly connected with an inclination version, the symmetrical fixation in pushing plate lower face
It is connected with the first electromagnet, it is symmetrical on the right side of the limiting slot lower end wall to be fixedly connected with the second electromagnet, described two pieces the
It is provided with first fixed block being fixedly connected with limiting slot lower end wall between two electromagnet, fixation is provided in the fixed block
Slot, first support bar is provided in the fixing groove, and fixing groove upper end wall and and pushing plate are run through in the first support bar upper end
Lower face is fixedly connected, and the first support bar lower end is fixedly connected with a fixed plate being slidably connected with fixing groove, and described the
Repulsion between one electromagnet and the second electromagnet is much larger than the elastic force of compressed spring.
3. a kind of anti-corrosion method of timber based on light guide techniques according to claim 1, it is characterised in that:The hydraulic pressure
Pushing mechanism includes hydraulic space, and a hydraulic plate is slidably connected in the hydraulic space, and the hydraulic plate left side, which is fixed, to be connected
It is connected to a hydraulic stem, a transmission space is provided in the hydraulic space right end wall, the hydraulic stem right end runs through hydraulic space
Right end wall and in the transmission space, is provided with hydraulic space at left and right sides of a connection hydraulic plate in the hydraulic space upper end wall
Hydraulic pipeline, be provided with a hydraulic pump in the hydraulic pipeline, the hydraulic stem right end is fixedly connected with one and transmission space
Driver plate, the transmission space upper end wall is provided with the driving groove of a connection free surrounding space, and the driver plate upper end is through passing
It moves slot and is located at free surrounding space, the lifting groove upper end wall is fixedly connected with a fixed pulley, and the driver plate upper end is fixedly connected
Have a chain, the chain upper end through support column right side and across fixed pulley upper end and with upper surface on the left of the first fixed link
It is fixedly connected.
4. a kind of anti-corrosion method of timber based on light guide techniques according to claim 1, it is characterised in that:The clamping
Mechanism includes the first support arm, and first support arm rear end is fixedly connected with the first fixing axle front end face, first support
Arm front end is fixedly connected with the first gripping block, and first gripping block left side is provided with the first clamping described in the first clamping space
Space left end wall is connected to free surrounding space, and the first clamping space right end wall is rotatably connected to a rotation axis, and the rotation axis is left
End face is fixedly connected with the first clamping plate, is fixedly connected with the second support arm on the left of the second fixed link front end face, and described second
Support arm front end face is fixedly connected with the second gripping block, and second gripping block right side is provided with the second clamping space, described
Second clamping space right side is connected to free surrounding space, and the second driven space, institute are provided in the second clamping space left end wall
State the second driven space left end wall and be rotatably connected to a rotary shaft, the rotary shaft right end through the second driven space right side and
In the second clamping space, the rotary shaft right end is fixedly connected with the second clamping plate, described to be located in the second driven space
Rotary shaft axis body on be fixedly connected with the second belt pulley, pass through belt transmission between first belt pulley and the second belt pulley
Connection.
5. a kind of anti-corrosion method of timber based on light guide techniques according to claim 1, it is characterised in that:Described device
The first fixed link is located at elevating lever most far from the second fixed link right side, described device original state downslide motion block under original state
Left side.
6. a kind of anti-corrosion method of timber based on light guide techniques according to claim 1, it is characterised in that:The display
Mechanism includes display screen, and a data block is provided in the first fixed link aft bulkhead, and the display screen passes through number with data block
It is connected according to line.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810757069.7A CN108748522A (en) | 2018-07-11 | 2018-07-11 | A kind of anti-corrosion method of the timber based on light guide techniques |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810757069.7A CN108748522A (en) | 2018-07-11 | 2018-07-11 | A kind of anti-corrosion method of the timber based on light guide techniques |
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Publication Number | Publication Date |
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CN108748522A true CN108748522A (en) | 2018-11-06 |
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CN201810757069.7A Withdrawn CN108748522A (en) | 2018-07-11 | 2018-07-11 | A kind of anti-corrosion method of the timber based on light guide techniques |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110090782A (en) * | 2019-06-17 | 2019-08-06 | 上海束零电脑有限公司 | A kind of computer heat-conducting silicone grease smears equipment automatically |
CN111730708A (en) * | 2020-07-21 | 2020-10-02 | 福州晋安霸仙科技有限公司 | Wood anti-corrosion processing device capable of fully and comprehensively brushing |
-
2018
- 2018-07-11 CN CN201810757069.7A patent/CN108748522A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110090782A (en) * | 2019-06-17 | 2019-08-06 | 上海束零电脑有限公司 | A kind of computer heat-conducting silicone grease smears equipment automatically |
CN111730708A (en) * | 2020-07-21 | 2020-10-02 | 福州晋安霸仙科技有限公司 | Wood anti-corrosion processing device capable of fully and comprehensively brushing |
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