CN106003282A - Automatic production equipment and method for manufacturing wood-based section bar by adopting trees as raw materials - Google Patents
Automatic production equipment and method for manufacturing wood-based section bar by adopting trees as raw materials Download PDFInfo
- Publication number
- CN106003282A CN106003282A CN201610519172.9A CN201610519172A CN106003282A CN 106003282 A CN106003282 A CN 106003282A CN 201610519172 A CN201610519172 A CN 201610519172A CN 106003282 A CN106003282 A CN 106003282A
- Authority
- CN
- China
- Prior art keywords
- arbor
- mould
- veneer
- dolly
- roller
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27D—WORKING VENEER OR PLYWOOD
- B27D1/00—Joining wood veneer with any material; Forming articles thereby; Preparatory processing of surfaces to be joined, e.g. scoring
- B27D1/04—Joining wood veneer with any material; Forming articles thereby; Preparatory processing of surfaces to be joined, e.g. scoring to produce plywood or articles made therefrom; Plywood sheets
- B27D1/08—Manufacture of shaped articles; Presses specially designed therefor
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27N—MANUFACTURE BY DRY PROCESSES OF ARTICLES, WITH OR WITHOUT ORGANIC BINDING AGENTS, MADE FROM PARTICLES OR FIBRES CONSISTING OF WOOD OR OTHER LIGNOCELLULOSIC OR LIKE ORGANIC MATERIAL
- B27N3/00—Manufacture of substantially flat articles, e.g. boards, from particles or fibres
- B27N3/08—Moulding or pressing
- B27N3/18—Auxiliary operations, e.g. preheating, humidifying, cutting-off
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27D—WORKING VENEER OR PLYWOOD
- B27D1/00—Joining wood veneer with any material; Forming articles thereby; Preparatory processing of surfaces to be joined, e.g. scoring
- B27D1/04—Joining wood veneer with any material; Forming articles thereby; Preparatory processing of surfaces to be joined, e.g. scoring to produce plywood or articles made therefrom; Plywood sheets
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27D—WORKING VENEER OR PLYWOOD
- B27D3/00—Veneer presses; Press plates; Plywood presses
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27D—WORKING VENEER OR PLYWOOD
- B27D5/00—Other working of veneer or plywood specially adapted to veneer or plywood
-
- 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
- B27K5/00—Treating of wood not provided for in groups B27K1/00, B27K3/00
- B27K5/0085—Thermal treatments, i.e. involving chemical modification of wood at temperatures well over 100°C
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27M—WORKING OF WOOD NOT PROVIDED FOR IN SUBCLASSES B27B - B27L; MANUFACTURE OF SPECIFIC WOODEN ARTICLES
- B27M1/00—Working of wood not provided for in subclasses B27B - B27L, e.g. by stretching
- B27M1/02—Working of wood not provided for in subclasses B27B - B27L, e.g. by stretching by compressing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B37/00—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
- B32B37/10—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the pressing technique, e.g. using action of vacuum or fluid pressure
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B37/00—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
- B32B37/12—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G37/00—Combinations of mechanical conveyors of the same kind, or of different kinds, of interest apart from their application in particular machines or use in particular manufacturing processes
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Wood Science & Technology (AREA)
- Forests & Forestry (AREA)
- Mechanical Engineering (AREA)
- Manufacturing & Machinery (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Fluid Mechanics (AREA)
- Veneer Processing And Manufacture Of Plywood (AREA)
- Chemical And Physical Treatments For Wood And The Like (AREA)
Abstract
The invention relates to the technical field of wood engineering structure material production, and discloses automatic production equipment and a method for manufacturing a wood-based section bar by adopting trees as raw materials. The automatic production equipment comprises a drying device, a turning device, a pressing device, a heat treatment device and a control device respectively connected with the above parts. A modified and impregnated tree veneer is placed on the drying device; the turning device is located under one end of the drying device; the dried tree veneer is fallen onto a laying trolley of the turning device; the pressing device is located on one end of the turning device; the heat treatment device is located at one side of the pressing device and is used for carrying out heat treatment on a pressed section bar blank. According to the automatic production equipment and the method for manufacturing the wood-based section bar by adopting the trees as the raw materials provided by the invention, the drying device, the turning device, the pressing device, the heat treatment device, the control device and other equipment are adopted for drying, laying, assembling, pressing and heat treating the modified and impregnated tree raw materials sequentially so as to form the wood-based section bar, so that the production efficiency is improved, and the industrial production and application of the wood-based section bar can be realized favorably.
Description
Technical field
The present invention relates to the production technical field of wooden structural timber, particularly relating to a kind of is former with arbor
Material manufactures automatic producing device and the method for wood fundamental mode material.
Background technology
Wood fundamental mode material, is that timber adds a certain amount of resin after discongesting with the timber of arbor class as primary raw material,
The one functional wood fundamental mode material made, is generally also referred to as timber of recombinating.
Timber belongs to a class resource, the external interdependency of China's timber about 50%, natural hard timber short
Lacking and had influence on woodwork processing industry, wood fundamental mode material can substitute natural hard timber, is used for making door
All kinds of woodwork such as window, furniture, has great importance to alleviating the most in short supply of natural hard timber resources,
But at present owing to lacking automatic producing device and the method for wood fundamental mode material, govern the industrial metaplasia of wood fundamental mode material
Produce and popularization and application.
Summary of the invention
It is an object of the invention to provide a kind of with arbor for raw material manufacture wood fundamental mode material automatic producing device and
Method, after round log discongests into veneer modified impregnation, enters by being dried, mat formation assembly, compacting, heat
The automatic producing device of the device compositions such as reason, control, makes wood fundamental mode material continuously, improves according to productive temp
The production efficiency of wooden fundamental mode material, is advantageously implemented industrialized production and the popularization and application of wood fundamental mode material.
For reaching this purpose, the present invention by the following technical solutions:
A kind of automatic producing device manufacturing wood fundamental mode material with arbor for raw material, including drying device, revolution dress
Put, pressure setting, annealing device and control device, wherein:
The arbor veneer after modified impregnation it is placed with, for described arbor veneer is carried out on described drying device
It is dried;
Described slewing equipment is positioned at below drying device one end, and dried arbor veneer falls into slewing equipment
Mat formation on dolly;
Described pressure setting is located at turn around one end of device, described in the arbor veneer mated formation in dolly be transported to
At described pressure setting, suppress pressure setting;
Described annealing device is positioned at the side of pressure setting, and the sectional material blank after suppressing repressed device enters
Row heat treatment;
Control device, be connected to described drying device, slewing equipment, pressure setting and heat treatment dress
Put.
As preferably, described drying device includes being all connected to the feedstock transportation mechanism of described control device, net
Band drying machine, climb conveying mechanism and break-in conveying mechanism, wherein:
If feedstock transportation mechanism includes that dried layer is setting up and down and the feedstock transportation band of movement, it is positioned at feedstock transportation band
One end and along conveying direction arrange at least one before milling roller and at least one after milling roller, adjacent before
Being provided with at least one cutting roller between milling roller and rear milling roller, the arbor veneer after modified impregnation is placed in raw material
On conveyer belt, feedstock transportation band drive and carry after sequentially passing through front milling roller, cutting roller and rear milling roller
To mesh dryer;
Mesh dryer, is connected to feedstock transportation mechanism, for entering the arbor veneer of feedstock transportation band conveying
Row is dried;
Climb conveying mechanism, is arranged at mesh dryer and is not connected with one end of feedstock transportation mechanism, is used for carrying
Through mesh dryer dried arbor veneer;
Break-in conveying mechanism, one end is connected to the conveying mechanism that climbs, and the other end is placed in the upper of described slewing equipment
Side, for being delivered to, by the arbor veneer break-in of conveying mechanism conveying of climbing, dolly of mating formation.
As preferably, described slewing equipment includes rotary conveyer structure and the saw being located at turn around on conveying mechanism
Cut mechanism, described in dolly of mating formation be placed on rotary conveyer structure and be driven by mobile, described Ju Jie mechanism with
Dolly of mating formation moves together, and cuts the arbor veneer cutting saw mated formation in dolly.
As preferably, described rotary conveyer structure includes the rollgang mechanism that first row interconnects, wherein
The rollgang mechanism of one end is positioned at the lower section of drying device, and the rollgang mechanism of the other end is connected to compacting
Device, is provided with the first side steering between the Liang Ge rollgang mechanism of pressure setting, and described first becomes
The rollgang mechanism having secondary series to interconnect, the rollgang mechanism of secondary series is connected to mechanism's other end
One end connection away from the first side steering has the second side steering, the described second side steering other end to connect
The rollgang mechanism of one end described in first row, described Ju Jie mechanism is between drying device and pressure setting
Liang Ge rollgang mechanism between
Preferably, described rotary conveyer structure also includes Weighing mechanism and the 3rd side steering, the described 3rd
Side steering is between the Liang Ge rollgang mechanism of first row, and Weighing mechanism is arranged at the 3rd side steering
With first between side steering.
As preferably, described Ju Jie mechanism include two between drying device and the 3rd side steering defeated
The fixing seat sending between roller-way mechanism and being fixedly installed, described fixing seat is provided with relatively that it can be with dolly of mating formation
The saw of movement cuts support, and described saw cuts support and connects and have reset cylinder, described saw to cut support to be provided with and be perpendicular to
Mat formation dolly moving direction and the saw blade moved back and forth and be positioned at least one fixing cylinder of saw blade side,
The outfan of described fixing cylinder is connected with fixing pressure head.
As preferably, described pressure setting includes precompressed mechanism and compacting clamping mechanism, the institute interconnected
State precompressed mechanism and be located at turn around one end of device, for the arbor veneer mated formation in dolly is tentatively suppressed
And be delivered to suppress in clamping mechanism;Described compacting clamping mechanism is positioned at the side of precompressed mechanism, for just
Arbor veneer after step compacting carries out main compacting.
As preferably, described precompressed mechanism includes sending mold mechanism, former pushing mechanism, U-shaped switching mechanism, precompressed side
Pushing mechanism, cope match-plate pattern conveying mechanism, wherein:
Described send mold mechanism to be provided with some moulds, and carry described mould to former pushing mechanism;
Described former pushing mechanism is connected to U-shaped switching mechanism, for the mould sending mold mechanism to carry is pushed to U
In type switching mechanism;
Described U-shaped switching mechanism is arranged on one end of described compacting clamping mechanism, is used for driving described mould to erect
Straight or flip horizontal;And the mould in U-shaped switching mechanism is pushed to suppress the mould of clamping mechanism by former pushing mechanism
Intracavity;
Described precompressed side push mechanism is positioned at the side of U-shaped switching mechanism and is arranged on slewing equipment sensing compacting lock
One end of mold mechanism, dolly of mating formation is delivered at described precompressed side push mechanism through slewing equipment, described precompressed side
The arbor veneer mated formation in dolly is tentatively suppressed by pushing mechanism, and after the side frame mentioning dolly of mating formation,
The arbor veneer tentatively suppressed is pushed in the described mould in described U-shaped switching mechanism;
Described cope match-plate pattern conveying mechanism is positioned at the side of described U-shaped switching mechanism, for U-shaped switching mechanism
Described mould conveying cope match-plate pattern.
As preferably, described compacting clamping mechanism includes the briquetting machine being positioned at U-shaped switching mechanism one end, position
In briquetting machine and be placed in the clamping mechanism of described mould side, it is positioned at briquetting machine and is placed in described mould
Pin mechanism is worn in the side of tool opposite side, and is positioned at the briquetting machine anti-pin that rises away from one end of U-shaped switching mechanism
Placement mechanism, the described anti-pin placement mechanism that rises is connected to described annealing device by discharging roller-way mechanism.
As preferably, described annealing device includes the heat treatment rollgang being positioned at discharging roller-way mechanism one end
And it being positioned at the heat treatment kiln on described heat treatment rollgang, the mould in described compacting clamping mechanism is through warm
Process in rollgang is delivered to heat treatment kiln and carry out heat treatment, form described wood fundamental mode material;
Preferably, it is additionally provided with manipulator mechanism between described discharging roller-way mechanism and heat treatment rollgang, institute
State manipulator mechanism to be placed on heat treatment rollgang by the mould in discharging roller-way mechanism.
As preferably, also including the finished product piling apparatus being connected to described control device, described finished product piles up dress
Setting in the side of described heat treatment kiln, after placing thermally treated kiln heat treatment equipped with described wood fundamental mode
The mould of material;
Preferably, also include being positioned at finished product piling apparatus side and be connected to described control device form removal dress
Putting, the mould equipped with described wood fundamental mode material that finished product piling apparatus is carried by described removing device is dismantled.
Preferably, also including the revolution roller-conveying device being connected to described control device, described revolution carries
Roller bed device is connected to removing device and is transmitted back in situ by the described mould of dismounting.
The present invention also provides for a kind of production method manufacturing wood fundamental mode material with arbor for raw material, including walking as follows
Rapid:
By drying device, the arbor veneer after modified impregnation is dried;
Carried by slewing equipment arbor dried to drying device veneer;
The arbor veneer carried slewing equipment by pressure setting is suppressed;
By annealing device, the sectional material blank after compacting is carried out heat treatment, form described wood fundamental mode material.
As preferably, described carry out bull ladle by slewing equipment arbor dried to drying device veneer
Include:
Place dried arbor veneer by dolly of mating formation, and drive, by rotary conveyer structure, dolly of mating formation
Move to pressure setting;
Moved with dolly of mating formation by Ju Jie mechanism, and to the arbor mated formation in dolly in moving process
Veneer carries out saw and cuts.
As preferably, the described arbor veneer carried slewing equipment by pressure setting is carried out compacting and includes:
The arbor veneer carried described slewing equipment by precompressed mechanism is tentatively suppressed;
By compacting clamping mechanism, the arbor veneer after preliminary compacting is carried out main compacting.
As preferably, by removing device, the mould equipped with described wood fundamental mode material is carried out form removal;
By revolution roller-conveying device, the mould after dismounting and cope match-plate pattern are transmitted back in situ.
Beneficial effects of the present invention: by drying device, slewing equipment, pressure setting, annealing device,
Control the equipment such as device, successively the arbor raw material after modified impregnation is dried, assembly of mating formation, compacting with
And after heat treatment, form wood fundamental mode material, improve production efficiency, be advantageously implemented the industrial metaplasia of wood fundamental mode material
Produce and application.
Accompanying drawing explanation
Fig. 1 is the integrally-built top view of automatic producing device of the present invention;
Fig. 2 is the structural representation of the drying device of automatic producing device of the present invention;
Fig. 3 is the structural representation of the slewing equipment of automatic producing device of the present invention;
Fig. 4 is the structural representation of the dolly of mating formation of automatic producing device of the present invention;
Fig. 5 is the structural representation of the rollgang mechanism of slewing equipment of the present invention;
Fig. 6 is enlarged diagram at the B of Fig. 4 of the present invention;
Fig. 7 is the structural representation of the Weighing mechanism of slewing equipment of the present invention;
Fig. 8 is the structural representation of the Ju Jie mechanism of automatic producing device of the present invention;
Fig. 9 is the structural representation of the pressure setting of automatic producing device of the present invention;
Figure 10 is the structural representation sending mold mechanism of precompressed mechanism of the present invention;
Figure 11 is the structural representation of the former pushing mechanism of precompressed mechanism of the present invention;
Figure 12 is enlarged diagram at the C of Figure 11 of the present invention;
Figure 13 is the structural representation of the U-shaped switching mechanism of precompressed mechanism of the present invention;
Figure 14 is the structural representation of the precompressed side push mechanism of precompressed mechanism of the present invention;
Figure 15 is the structural representation of the cope match-plate pattern conveying mechanism of precompressed mechanism of the present invention;
Figure 16 is the compacting clamping mechanism (the not shown anti-pin placement mechanism that rises) of automatic producing device of the present invention
Structural representation;
Figure 17 is that the present invention suppresses the side of clamping mechanism and wears the structural representation of pin mechanism;
Figure 18 is enlarged diagram at the D of Figure 17 of the present invention;
Figure 19 is the structural representation that the present invention suppresses the anti-pin placement mechanism that rises of clamping mechanism;
Figure 20 is that the present invention suppresses clamping mechanism anti-and rises the knot that pin placement mechanism is connected with discharging roller-way mechanism
Structure schematic diagram;
Figure 21 is the structural representation of the annealing device of automatic producing device of the present invention;
Figure 22 is the structural representation of the manipulator mechanism of annealing device of the present invention;
Figure 23 is the partial structurtes schematic diagram of manipulator mechanism of the present invention;
Figure 24 is heat treatment rollgang and the structural representation of heat treatment kiln of annealing device of the present invention;
Figure 25 is the structural representation of the finished product piling apparatus of automatic producing device of the present invention;
Figure 26-27 is the structural representation of the removing device of automatic producing device of the present invention;
Figure 28 is the structural representation that the present invention turns round the revolution rollgang of roller-conveying device;
Figure 29 is the structural representation of the turnover conveyer device of automatic producing device of the present invention;
Figure 30 is the schematic flow sheet of the production method of wood fundamental mode material of the present invention.
In figure:
1, drying device;
1-1, feedstock transportation mechanism;1-1-1, feedstock transportation band;1-1-2, front milling roller;1-1-3, after
Milling roller;1-1-4, cutting roller;1-2, mesh dryer;1-3, climb conveying mechanism;1-3-1, climb
Rise conveyer belt;1-4, break-in conveying mechanism;1-4-1, break-in conveyer belt;1-4-2, bracing frame;
1-4-3, guide plate;1-5, vented dryer structure;
2, slewing equipment;
2-1, dolly of mating formation;2-1-1, base plate;2-1-2, side frame;
2-2, rotary conveyer structure;
2-2-1, rollgang mechanism;2-2-2, the first side steering;2-2-3, the second side steering;
2-2-4, Weighing mechanism;2-2-5, the 3rd side steering;
2-2-1-1, roller-way support body;2-2-1-2, roller-way reducing motor;2-2-1-3, conveying roller;
2-2-2-1, conveyor module;2-2-2-2, break-in conveyor module;2-2-4-1, weighing bracket;
2-2-4-2, weigher;2-2-4-3, spiral lift;2-2-4-4, the second reducing motor;
2-2-4-5, conveying roller of weighing;2-2-2-1-1, conveying roller group;2-2-2-1-2, break-in roller group;
2-2-2-1-3, propelling movement cylinder;2-2-2-2-1, break-in conveying roller;
2-3, Ju Jie mechanism;2-3-1, fixing seat;2-3-2, saw cut support;2-3-3, reset cylinder;
2-3-4, saw blade;2-3-5, fixing cylinder;2-3-6, fixing pressure head;2-3-7, the 4th lead;
3, pressure setting;3-1, precompressed mechanism;3-2, compacting clamping mechanism;
3-1-1, send mold mechanism;3-1-1-1, base;3-1-1-2, the 3rd reducing motor;3-1-1-3、
Promote plate;3-1-1-4, send die road;3-1-1-5, Universal caster;3-1-1-6, directive wheel;
3-1-2, former pushing mechanism;3-1-2-1, push away mould bases;3-1-2-2, the first line slideway;3-1-2-3、
Push pedal;3-1-2-4, cut somebody's hair;3-1-2-5, connecting rod;3-1-2-6, the 4th reducing motor;
3-1-3, U-shaped switching mechanism;3-1-3-1, turnover bracket;3-1-3-2, rotary shaft;3-1-3-3、
U-shaped frame;3-1-3-4, oil cylinder;3-1-3-5, die cavity side plate;3-1-3-6, lower air cylinder;3-1-3-7、
Mould block;3-1-3-8, rotation clasp;
3-1-4, precompressed side push mechanism;3-1-4-1, precompressed side push away support;3-1-4-2, preloaded module;
3-1-4-3, dolly side frame hoisting module;3-1-4-4, side push away module;3-1-4-2-1, prefabricating oil cylinder;
3-1-4-2-2, precompressed pressure head;3-1-4-2-3, the first lead;3-1-4-3-1, lift cylinder;
3-1-4-3-2, hoist hook;3-1-4-4-1, level frame;3-1-4-4-2, side push oil cylinder;3-1-4-4-3、
Side push plate;
3-1-5, cope match-plate pattern conveying mechanism;3-1-5-0, cope match-plate pattern;3-1-5-1, cope match-plate pattern transfer gantry;
3-1-5-2, cope match-plate pattern absorption carriage;3-1-5-3, the second line slideway;3-1-5-4, tooth bar;3-1-5-5、
Link;3-1-5-6, cope match-plate pattern absorption carriage cylinder;3-1-5-7, cope match-plate pattern pressure head;3-1-5-8, electricity
Magnet;3-1-5-9, servomotor;3-1-5-a, upper mold sheet frame;3-1-5-b, the 5th reducing motor;
3-2-1, briquetting machine;3-2-1-1, compacting bearing;3-2-1-2, compacting slide block;3-2-1-3、
Pressure head;
3-2-2, clamping mechanism;3-2-2-1, mould left pressing plate oil cylinder;3-2-2-2, mould left pressing plate;
3-2-2-3, voussoir ejection cylinder;3-2-2-4, voussoir;3-2-2-5, upper ejection cylinder;3-2-2-6、
Knock-pin;
Pin mechanism is worn in 3-2-3, side;Pin bearing is worn in 3-2-3-1, side;3-2-3-2, working face;3-2-3-3、
Placing trough;Pin is worn in 3-2-3-4, side;Pin push pedal is worn in 3-2-3-5, side;3-2-3-6, push rod;3-2-3-7、
Wear pin oil cylinder;3-2-3-8, cylinder bracket;3-2-3-9, the 3rd line slideway;3-2-3-a, slide block;3-2-3-b、
Pin case;3-2-3-c, rolling bearing;3-2-3-d, the 6th reducing motor;3-2-3-e, Timing Belt;
3-2-4, the anti-pin placement mechanism that rises;3-2-4-1, the anti-pin bearing that rises;3-2-4-2, mould support carry
Roller-way;3-2-4-3, the anti-pin that rises place oil cylinder;3-2-4-4, placement pressing plate;3-2-4-5, electric magnet;3-2-4-6、
Second lead;3-2-4-7, the 4th line slideway;3-2-4-8, the anti-pin framework that rises;3-2-4-9, location
Oil cylinder;3-2-4-a, locating piece;3-2-4-b, the anti-pin that rises;
3-2-5, mould;
3-2-6, discharging roller-way mechanism;3-2-6-1, discharging roller-way;3-2-6-2, the 7th reducing motor;
4, annealing device;4-1, heat treatment rollgang;4-2, heat treatment kiln;4-3, machinery mobile phone
Structure;
4-3-1, support beam;4-3-2, gripper shoe;4-3-3, the first servomotor;4-3-4, spiral liter
Fall machine;4-3-5, connection seat;4-3-6, manipulator cylinder;4-3-7, mechanical hand;4-3-8, lock pin gas
Cylinder;4-3-9, the 5th line slideway;4-3-a, the second servomotor;4-3-b, lifting guide pillar;
5, finished product piling apparatus;5-1, roller bed frame;5-2, finished product pile up rollgang;5-3, dance roller
Road;5-4, mould ejection plate;5-2-1, finished product pile up conveying roller;
6, removing device;6-0, U-shaped mould;6-1, the first support body;6-2, the second support body;6-3, mould
Tool places roller-way;6-4, wood a tree, used in making timber for boats roller-way;6-5, lower ejection cylinder;6-6, cylinder rack;6-7, form removal oil
Cylinder;6-8, support hook plate;6-9, the 3rd lead;6-0-a, propelling movement oil cylinder;6-0-b, wood a tree, used in making timber for boats;
7, revolution roller-conveying device;7-1, revolution rollgang;
8, turnover conveyer device;8-1, turnover conveying base;8-2, the 8th reducing motor;8-3, turnover
Conveying roller;
9, cope match-plate pattern piles up conveyer device;
10, conveyer device piled up by U-shaped mould.
Detailed description of the invention
Further illustrate technical scheme below in conjunction with the accompanying drawings and by detailed description of the invention.
As it is shown in figure 1, the present invention provides the automatic producing device of a kind of wood fundamental mode material, it is mainly used in arbor
Raw material production is wood fundamental mode material, to improve the application of arborescent trees plant, concrete, this automatic producing device bag
Include drying device 1, slewing equipment 2, pressure setting 3, annealing device 4, finished product piling apparatus 5, form removal
Device 6, revolution roller-conveying device 7, turnover conveyer device 8, cope match-plate pattern pile up conveyer device 9, U-shaped mould
Tool pile up conveyer device 10 and electrically connect with above-mentioned each parts control device (can be electric control system,
Not shown in figure), below to the annexation between above-mentioned all parts and each parts of the present invention and work
It is illustrated elaboration as principle, specific as follows:
1), drying device 1
As in figure 2 it is shown, drying device 1 include being all connected to above-mentioned control device feedstock transportation mechanism 1-1,
Mesh dryer 1-2, the conveying mechanism 1-3 that climbs, break-in conveying mechanism 1-4 and vented dryer structure 1-5,
Wherein:
If feedstock transportation mechanism 1-1 includes that dried layer is setting up and down and the feedstock transportation band 1-1-1 of movement, this raw material
Conveyer belt 1-1-1 drives mobile by reducing motor and running roller, concrete, can be in feedstock transportation mechanism
The two ends of 1-1 arrange running roller, and one of them running roller connects above-mentioned reducing motor, are driven by running roller and rotate,
Subsequently feedstock transportation band 1-1-1 is set on running roller, running roller drives mobile.In the present embodiment, former
Material conveyer belt 1-1-1 one end conveying direction is provided with at least one before milling roller 1-1-2 and at least
Individual rear milling roller 1-1-3, above-mentioned front milling roller 1-1-2 are arranged side by side, and it is along conveying direction before last
Milling roller 1-1-2 is positioned at the front of milling roller 1-1-3 after first, milling roller before adjacent last
It is provided with at least one cutting roller 1-1-4 between milling roller 1-1-3 after 1-1-2 and first.After modified impregnation
Arbor veneer is placed on feedstock transportation band 1-1-1, feedstock transportation band 1-1-1 drive through front milling roller
1-1-2, by front milling roller 1-1-2 arbor veneer is rolled smooth after, then through cutting roller 1-1-4 to Qiao
Veneer carries out shredding but does not cut off process, rolls smooth through milling roller 1-1-3 later the most again, now exists
Glue can be rolled in the shredding mouth of arbor veneer by rear milling roller 1-1-3 to a certain extent, improves further
Impregnation effect.Afterwards, through after milling roller 1-1-3 roll after arbor veneer be transported to mesh dryer 1-2
In, in the present embodiment, above-mentioned arbor veneer is when carrying through feedstock transportation band 1-1-1, and its moisture content is 50
± 5%.
Mesh dryer 1-2, is connected to feedstock transportation mechanism 1-1, is internally provided with and feedstock transportation band 1-1-1
Conveyer belt one to one, the arbor veneer come for accepting feedstock transportation band 1-1-1 to carry, through guipure
Drying machine 1-2 is dried, and the moisture control of arbor veneer is at 10-15%;
In the present embodiment, vented dryer structure 1-5 is arranged at mesh dryer 1-2 and is not connected with feedstock transportation
One end of mechanism 1-1, is carried through the dried arbor veneer of the tape transport of mesh dryer 1-2
It is further dried to vented dryer structure 1-5.Concrete, set in the bottom of vented dryer structure 1-5
Blower fan (not shown), this blower fan is dried to arbor veneer, accelerates air and flows to reach drying purpose,
It is arranged over stopping net, in order to prevent arbor veneer from being blown off by blower fan or blowing unrest at vented dryer structure 1-5.
Climb conveying mechanism 1-3, is arranged at vented dryer structure 1-5 and is not connected with the one of mesh dryer 1-2
End, if the conveyer belt 1-3-1 that climbs being obliquely installed including dried layer, each conveyer belt 1-3-1 that climbs is all by subtracting
The mode of speed motor and running roller realizes mobile, above-mentioned climbs conveyer belt 1-3-1 and mesh dryer 1-2's
The corresponding setting of conveyer belt, is transported to climb through vented dryer structure 1-5 dried arbor veneer defeated
Send on band 1-3-1.
Break-in conveying mechanism 1-4, including in bending the break-in conveyer belt 1-4-1 arranged and being positioned at break-in conveying
With the bracing frame 1-4-2 at two ends below 1-4-1, support break-in conveyer belt 1-4-1 by bracing frame 1-4-2,
Preferably, this break-in conveyer belt 1-4-1 is that 90 ° of bendings are arranged, and its one end is connected to the conveying mechanism 1-3 that climbs
The conveyer belt 1-3-1 that climbs, the other end is placed in the top of slewing equipment 2 and is provided with guide plate 1-4-3, passing through
Dried arbor veneer is mated formation mating formation in dolly 2-1 at slewing equipment 2 by guide plate 1-4-3 uniformly.
In the present embodiment, the width of the conveyer belt of the above-mentioned each parts of drying device 1 is preferably arranged to 2800mm,
Translational speed is set to 0-20 m/min.
2) slewing equipment 2
As it is shown on figure 3, slewing equipment 2 include the above-mentioned dolly 2-1 that mats formation, rotary conveyer structure 2-2 and
Ju Jie mechanism 2-3, the dolly 2-1 that wherein mats formation are placed on rotary conveyer structure 2-2 and are driven by mobile, saw
Cut mechanism 2-3 be located at turn around on conveying mechanism 2-2 and move with the dolly 2-1 that mats formation, and little to mating formation
Arbor veneer cutting saw in car 2-1 cuts.Wherein:
2.1) mat formation dolly 2-1
As shown in Figure 4, the above-mentioned dolly 2-1 that mats formation is set to multiple, and it is 2500 that the dolly 2-1 that mats formation selects ×
The specification of 800 × 800 (length × width × heights, unit is millimeter), and adjacent two mat formation dolly 2-1 it
Between be provided with gap, this gap is set to specified distance, this dolly 2-1 that mats formation include base plate 2-1-1 and
Symmetry is inserted into base plate 2-1-1 both sides and dismountable side frame 2-1-2, in the present embodiment, in pavement process
The dolly 2-1 that mats formation runs forward with the speed of 2600 millimeters/3 minutes, along with many pieces of arbor veneer is through leading
Falling in the dolly 2-1 that mats formation to plate 1-4-3, the dolly 2-1 that mats formation also is walking forward, the most each
Veneer raw material mat formation in dolly 2-1 in being overlapped on of staircase step shape stacking the most one by one, and the most in place
Arbor veneer (now arbor veneer is certain heeling condition) it is paved with in certain dolly 2-1 that mats formation of rear side,
And all it is paved with single (initial first dolly of mating formation of arbor in being eventually located at each dolly 2-1 that mats formation of rear side
Except 2-1), cut device 2-3 saw by saw subsequently and cut, after cutting, initial first dolly 2-1 that mats formation is through returning
Turn conveying mechanism 2-2 to transport, be paved with the dolly 2-1 that mats formation of arbor veneer then rotary conveyer structure 2-2's
Transport lower entrance in pressure setting 3.
2.2) rotary conveyer structure 2-2
Above-mentioned rotary conveyer structure 2-2 includes some rollgang mechanism 2-2-1, first side steering
2-2-2, the second side steering 2-2-3, a Weighing mechanism 2-2-4 and the 3rd side steering
2-2-5, concrete, with reference to Fig. 4 and Fig. 5, the structure of the above-mentioned rotary conveyer structure 2-2 of the present invention is added
With explanation:
Above-mentioned rollgang mechanism 2-2-1, the first side steering 2-2-2, the second side steering 2-2-3,
Weighing mechanism 2-2-4 and the 3rd side steering 2-2-5 is interconnected to form a revolution being similar to rectangle
Structure, the dolly 2-1 that mats formation is placed on above-mentioned rotary conveyer structure 2-2 and is driven by run.
The most some rollgang mechanism 2-2-1 are divided into two row and arrange, and specially first row and secondary series sets
Putting, the rollgang mechanism 2-2-1 being positioned at first row one end is arranged on the lower section of drying device 1 one end, tool
Body is provided in the underface of break-in conveying mechanism 1-4, and the rollgang mechanism 2-2-1 of the other end then connects
In pressure setting 3.It is positioned at the roller conveyor structure 2-2-1 at secondary series two ends respectively by the first side steering
2-2-2 and the second side steering 2-2-3 is connected to the rollgang mechanism 2-2-1 of first row.
As it is shown in figure 5, above-mentioned rollgang mechanism 2-2-1 includes roller-way support body 2-2-1-1, it is positioned at roller bed frame
Body 2-2-1-1 is interior and is connected to control the roller-way reducing motor 2-2-1-2 of device, at roller-way support body 2-2-1-1
Upper end be provided with and arrange and some conveyings of being connected by chain along roller-way support body 2-2-1-1 length direction interval
Roller 2-2-1-3, one of them conveying roller 2-2-1-3 are connected to roller-way reducing motor 2-2-1-2 by chain.
When first side steering 2-2-2 is mainly used in mating formation dolly 2-1 empty wagons returns at pressure setting 3,
To mating formation, dolly 2-1 carries out break-in, and this first side steering 2-2-2 is relative to the rollgang machine of first row
Structure 2-2-1 is vertically arranged and one end of the first side steering 2-2-2 is positioned at first row near pressure setting 3
Between Liang Ge rollgang mechanism 2-2-1, constitute pipeline with the rollgang mechanism 2-2-1 of first row,
The other end is connected to the rollgang mechanism 2-2-1 of secondary series and constitutes another pipeline with it, dolly of mating formation
2-1 can realize the change of traffic direction by the first side steering 2-2-2, with reference to Fig. 6, this first break-in machine
Structure 2-2-2 include the conveyor module 2-2-2-1 being positioned at two ends and be positioned at two conveyor module 2-2-2-1 it
Between break-in conveyor module 2-2-2-2, conveyor module 2-2-2-1 be provided be positioned at two ends and with rollgang machine
Some conveying roller groups 2-2-2-1-1 that the conveying roller 2-2-1-3 setting direction of structure 2-2-1 is identical, and be positioned at
Between two conveying roller groups 2-2-2-1-1 and the break-in roller vertical with conveying roller group 2-2-2-1-1 traffic direction
Group 2-2-2-1-2, wherein conveying roller group 2-2-2-1-1 is driven by the reducing motor on conveyor module 2-2-2-1-1
Dynamic, break-in roller group 2-2-2-1-2 is then relative to conveying roller group 2-2-2-1-1 liftable, specifically by break-in
Roller group 2-2-2-1-2 is arranged on a support body, and above-mentioned support body connects spiral lift (not shown),
Support body and the lifting of break-in roller group 2-2-2-1-2 thereon can be realized by driven by motor spiral lift,
In the present embodiment, spiral lift is prior art, therefore repeats no more its structure, such as, can be logical whirlpool
Worm and gear mechanism, it is also possible to be other mechanisms being capable of lifting.It should be noted that above-mentioned break-in roller
2-2-2-1-2 is when the dolly 2-1 that mats formation need not break-in to group, and it is less than conveying roller group 2-2-2-1-1, and then
Ensure that the operation of the dolly 2-1 that mats formation will not be caused interference by break-in roller group 2-2-2-1-2.Above-mentioned conveyor module
2-2-2-1 is connected to the rollgang mechanism 2-2-1 of first row and secondary series, is wherein connected to first
On the conveyor module 2-2-2-1 of the rollgang mechanism 2-2-1 of row away from second row rollgangs mechanism
2-2-1 and the side parallel with the rollgang mechanism 2-2-1 conveying direction of secondary series are provided with sensing break-in conveying
The propelling movement cylinder 2-2-2-1-3 of module 2-2-2-2, is connected to rollgang mechanism 2-2-1 defeated of secondary series
The side sending module 2-2-2-1 is provided with the propelling movement cylinder of the rollgang mechanism 2-2-1 pointing to secondary series
2-2-2-1-3, above-mentioned propelling movement cylinder 2-2-2-1-3 make its break-in for the propelling movement dolly 2-1 that mats formation and are placed in
On rollgang mechanism 2-2-1.
Break-in conveyor module 2-2-2-2 includes some covert with what break-in roller group 2-2-2-1-2 was arranged in the same direction
Conveying roller 2-2-2-2-1, this break-in conveying roller 2-2-2-2-1 are realized turning by chain drive by reducing motor
Dynamic, for the driving to the dolly 2-1 that mats formation.The dolly 2-1 that mats formation of the present embodiment is when needs break-in, first
First pass through the spiral lifting on the conveyor module 2-2-2-1 of the rollgang mechanism 2-2-1 being connected to first row
Break-in roller group 2-2-2-1-2 is risen by machine, is pushed to break-in by propelling movement cylinder 2-2-2-1-3 subsequently
On the break-in conveying roller 2-2-2-2-1 of conveyor module 2-2-2-2, it drive and run to another conveying mould
On block 2-2-2-1, pushed away by the propelling movement cylinder 2-2-2-1-3 on another conveyor module 2-2-2-1 the most again
Deliver to, on the rollgang mechanism 2-2-1 of secondary series, complete whole break-in process.
Second side steering 2-2-3 is arranged on the rollgang mechanism 2-2-1 of secondary series away from the first break-in machine
One end of structure 2-2-2, it is for becoming the dolly 2-1 that mats formation on the rollgang mechanism 2-2-1 of secondary series
To and drive it to run the lower section of break-in conveying mechanism 1-4 to drying device 1, this second side steering
2-2-3 includes two conveyor modules and break-in conveyor module, and two conveyor modules are connected to first
Row and the rollgang mechanism 2-2-1 of secondary series, break-in conveyor module, should between two conveyor modules
The conveyor module of the second side steering 2-2-3 and the structure of break-in conveyor module and the first side steering 2-2-2
Conveyor module 2-2-2-1 and the structure of break-in conveyor module 2-2-2-2 the most identical, the most superfluous at this
State.
By the first side steering 2-2-2 and the second side steering 2-2-3, it is possible to realize mating formation dolly 2-1
Circular flow use, be conducive to improving production efficiency.
3rd side steering 2-2-5 is between the Liang Ge rollgang mechanism 2-2-1 of first row, concrete
Liang Ge rollgang mechanism 2-2-1 between break-in conveying mechanism 1-4 and the first side steering 2-2-2
Between and one end be connected to rollgang mechanism 2-2-1, the other end is connected to Weighing mechanism 2-2-4, the 3rd
Side steering 2-2-5 includes that two ends are connected with rollgang mechanism 2-2-1 and Weighing mechanism 2-2-4 respectively
Conveyor module, and be positioned at conveyor module the same side and several break-in conveyor modules interconnective, this
Being set to three in enforcement, above three break-in conveyor module is away from the rollgang mechanism 2-2-1 of first row
Arrange, the conveyor module of the 3rd side steering 2-2-5 and the structure of break-in conveyor module and the first break-in machine
The structure of the conveyor module 2-2-2-1 and break-in conveyor module 2-2-2-2 of structure 2-2-2 is the most identical, at this
Repeat no more.
It is arranged on the 3rd side steering 2-2-5 and the first side steering with reference to Fig. 7, Weighing mechanism 2-2-4
Between a rollgang mechanism 2-2-1 between 2-2-2 and the 3rd side steering 2-2-5, it includes weighing
Support 2-2-4-1, is positioned at the weigher 2-2-4-2 of weighing bracket 2-2-4-1 middle part, at weigher
Being provided with spiral lift 2-2-4-3 below 2-2-4-2, this spiral lift 2-2-4-3 is by the second deceleration electricity
Machine 2-2-4-4 drives, and this second reducing motor 2-2-4-4 is located at weighing bracket also by chain connection
2-2-4-1 is upper and is positioned at the conveying roller 2-2-4-5 that weighs of weigher 2-2-4-2 both sides, conveying roller of weighing
The setting direction of 2-2-4-5 is consistent with the conveying direction of first row rollgang mechanism 2-2-1, is used for driving paving
Dress dolly 2-1 continues to run with.
After the dolly 2-1 that mats formation of this enforcement is paved with arbor veneer and runs at Weighing mechanism 2-2-4, meeting exists
Weighing on Weighing mechanism 2-2-4, the weigher 2-2-4-2 of Weighing mechanism 2-2-4 is by spiral lift
2-2-4-3 drives and rises and dolly 2-1 jack-up of mating formation, to the weight of arbor veneer in this dolly 2-1 that mats formation
Carrying out Weighing, after weighing, the dolly 2-1 that will mat formation puts down, and by the second reducing motor
2-2-4-4 drives the dolly 2-1 that mats formation to continue to the 3rd side steering 2-2-5 and runs, when recording arbor veneer not
When meeting weight demands, when the dolly 2-1 that mats formation runs to the 3rd side steering 2-2-5, can be by the 3rd break-in
It is first-class pending that propelling movement cylinder on the conveyor module of mechanism 2-2-5 is pushed into its break-in conveyor module;When recording
When arbor veneer meets weight demands, the dolly 2-1 that mats formation being paved with arbor veneer runs to suppressing dress the most always
Put and at 3, carry out subsequent processing.
2.3) Ju Jie mechanism 2-3
Ju Jie mechanism 2-3 is arranged between drying device 1 and pressure setting 3 Liang Ge rollgang mechanism
Between 2-2-1, specifically it is arranged on two conveying rollers between drying device 1 and the 3rd side steering 2-2-5
Between road mechanism 2-2-1, saw for the arbor veneer that the stacking overlap joint mated formation on dolly 2-1 is arranged
Cut.
Below in conjunction with the accompanying drawings and further illustrate saw by detailed description of the invention and cut the structure of device 2-3.
With reference to Fig. 8, above-mentioned saw cuts device 2-3 and is mainly cut support 2-3-2, reset by fixing seat 2-3-1, saw
Cylinder 2-3-3, saw blade 2-3-4, fixing cylinder 2-3-5, fixing pressure head 2-3-6 and lead 2-3-7
Deng composition.
Wherein fix the seat 2-3-1 two conveyings between drying device 1 and the 3rd side steering 2-2-5
Between roller-way mechanism 2-2-1 and be fixedly installed, this fixing seat 2-3-1 is provided with relatively that it is removable and with paving
The dress saw that moves of dolly 2-1 cuts support 2-3-2, and this saw cuts support 2-3-2 and connects and have what one end was fixedly installed to answer
Position cylinder 2-3-3 (specifically can be fixedly installed on certain support body, not shown in the present embodiment), saw cuts support 2-3-2
It is provided be perpendicular to mat formation dolly 2-1 moving direction and the saw blade 2-3-4 that moves back and forth, particularly passes through gas
Cylinder drives saw blade 2-3-4 or reducing motor to drive dynamic saw blade 2-3-4 to realize the reciprocal shifting of saw blade 2-3-4
Dynamic;Be additionally provided with the fixing cylinder 2-3-5 being positioned at saw blade 2-3-4 side in saw section support 2-3-2 upper end, this is solid
Determine cylinder 2-3-5 to arrange straight down and outfan is connected with fixing pressure head 2-3-6, at fixing pressure head 2-3-6
Upper end is fixed with the 4th lead 2-3-7 sliding through saw section support 2-3-2.
After the dolly 2-1 that mats formation being paved with arbor veneer runs at Ju Jie mechanism 2-3, saw cuts support
2-3-2 can move together along with the dolly 2-1 that mats formation, and during movement, fixing cylinder 2-3-5 can drive
It is fixing, subsequently that the fixing descending arbor veneer to mating formation in the dolly 2-1 that mats formation of pressure head 2-3-6 carries out compacting
Arbor veneer is cut under the driving effect of reducing motor by saw blade 2-3-4, after cutting, fixing
Cylinder 2-3-5 drives fixing pressure head 2-3-6 to rise reset, and saw cuts support 2-3-2 and each parts thereon
Then homing under the effect of reset cylinder 2-3-3, to treat that saw next time cuts work.Need explanation
Be, the saw blade 2-3-4 of the present embodiment carry out saw cut off cut time, be located just at adjacent two and mat formation dolly
In the gap of 2-1.
3), pressure setting 3
Pressure setting 3 includes precompressed mechanism 3-1 and compacting clamping mechanism 3-2, the wherein precompressed interconnected
Mechanism 3-1 is located at turn around one end of device 2, for carrying out the arbor veneer mated formation in dolly 2-1 tentatively
Suppress and be delivered to suppress in clamping mechanism 3-2;Compacting clamping mechanism 3-2 is positioned at the one of precompressed mechanism 3-1
Side, for carrying out main compacting to the arbor veneer after preliminary compacting.
Separately below to the structure of the above-mentioned precompressed mechanism 3-1 of the present embodiment and compacting clamping mechanism 3-2 in addition
Illustrate:
3.1) precompressed mechanism 3-1
Refer to 9, this precompressed mechanism 3-1 includes sending mold mechanism 3-1-1, former pushing mechanism 3-1-2, U-shaped turns over
Rotation mechanism 3-1-3, precompressed side push mechanism 3-1-4, cope match-plate pattern conveying mechanism 3-1-5, wherein:
Sending mold mechanism 3-1-1 to be provided with some moulds, as shown in Figure 10, this send mold mechanism 3-1-1 to include the end
Seat 3-1-1-1, is positioned at the 3rd reducing motor 3-1-1-2 in base 3-1-1-1 centre position and is subtracted by the 3rd
The promotion plate 3-1-1-3 that speed motor 3-1-1-2 drives, mould is positioned at promotion plate 3-1-1-3 away from the 3rd deceleration
The side of motor 3-1-1-2, this promotion plate 3-1-1-3 can under the effect of the 3rd reducing motor 3-1-1-2
Mobile, on base 3-1-1-1, particularly it is provided with guide rail and sprocket wheel, the 3rd reducing motor 3-1-1-2
It is connected to sprocket wheel by chain, promotes plate 3-1-1-3 to be installed on chain and along slide.At base
The both sides of 3-1-1-1 are provided with send die road 3-1-1-4, and mould is placed on and send on die road 3-1-1-4.The end
3-1-1-4 one end away from the 3rd reducing motor 3-1-1-2 in die road is being sent vertically to be provided with on seat 3-1-1-1
The Universal caster 3-1-1-5 of some array arrangements, and the row's directive wheel being positioned on base 3-1-1-1
3-1-1-6.Plate 3-1-1-3 is promoted to push away by sending the 3rd reducing motor 3-1-1-2 of mold mechanism 3-1-1 to drive
Moving mold is mobile at Universal caster 3-1-1-5, after mould moves to Universal caster 3-1-1-5, its
Side is sticked on directive wheel 3-1-1-6, is pushed to U-shaped switching mechanism by former pushing mechanism 3-1-2 subsequently
At 3-1-3.
Former pushing mechanism 3-1-2 is positioned at the top of Universal caster 3-1-1-5, and one end is provided with U-shaped tipper
Structure 3-1-3, as shown in figs. 11 and 12, this former pushing mechanism 3-1-2 includes pushing away mould bases 3-1-2-1, on
State some Universal caster 3-1-1-5 to be positioned at and push away below mould bases 3-1-2-1, push away above mould bases 3-1-2-1 two
Side is provided with the first line slideway 3-1-2-2, and this first line slideway 3-1-2-2 is provided with and can be moved along it
Push pedal 3-1-2-3 and the 3-1-2-4 that cuts somebody's hair, wherein push pedal 3-1-2-3 is positioned at the first line slideway 3-1-2-2
Away from one end of U-shaped switching mechanism 3-1-3, the 3-1-2-4 that cuts somebody's hair is positioned at the first line slideway 3-1-2-2's
Centre position, and the lower section of the 3-1-2-4 that cuts somebody's hair is connected with push pedal 3-1-2-3 by connecting rod 3-1-2-5,
This connecting rod 3-1-2-5 is positioned at the one end of the 3-1-2-4 that cuts somebody's hair and is provided with mushroom head, sets on push pedal 3-1-2-3
Having the 4th reducing motor 3-1-2-6, it drives push pedal 3-1-2-3 to move along the first line slideway 3-1-2-2.
Sending mold mechanism 3-1-1 to be delivered to by mould after Universal caster 3-1-1-5 goes out above-mentioned, mould is located just at
Push pedal 3-1-2-3 and cut somebody's hair between 3-1-2-4 and be positioned at the lower section of connecting rod 3-1-2-5, subtracts by the 4th
Speed motor 3-1-2-6 drives push pedal 3-1-2-3 to move, and mould can be pushed into U by push pedal 3-1-2-3 lower end
At type switching mechanism 3-1-3, push pedal 3-1-2-3 is driven to reply by the 4th reducing motor 3-1-2-6 the most again
In situ.
U-shaped switching mechanism 3-1-3 is positioned at the side of former pushing mechanism 3-1-2, is specifically positioned at and pushes away mould bases 3-1-2-1
Lower section and be disposed adjacent with sending mold mechanism 3-1-1, its be positioned at compacting clamping mechanism 3-2 one end.Specifically
Include turnover bracket 3-1-3-1, at turnover bracket 3-1-3-1 with reference to Figure 13, this U-shaped switching mechanism 3-1-3
It is provided with the U-shaped frame 3-1-3-3 being rotationally connected with it, specifically arranges in the side of turnover bracket 3-1-3-1
Rotary shaft 3-1-3-2, U-shaped frame 3-1-3-3 is rotationally connected with turnover bracket by this rotary shaft 3-1-3-2
3-1-3-1, is provided with the side of rotary shaft 3-1-3-2 at turnover bracket 3-1-3-1 and is additionally provided with one and is obliquely installed
Oil cylinder 3-1-3-4, the oil cylinder seat of this oil cylinder 3-1-3-4 is hinged on bottom turnover bracket 3-1-3-1, its output
End is then hinged on U-shaped frame 3-1-3-3, by driving oil cylinder 3-1-3-4 to stretch out, and U-shaped frame 3-1-3-3 quilt
Oil cylinder 3-1-3-4 drives the vertical state that is in, and drives oil cylinder 3-1-3-4 to retract, the most U-shaped frame 3-1-3-3
Driven by oil cylinder 3-1-3-4 and be in level.
Connect to have in U-shaped frame 3-1-3-3 and rotate therewith and die cavity side plate slidable against
3-1-3-5, the mould pushed through former pushing mechanism 3-1-2 is placed between two die cavity side plate 3-1-3-5, two
Between individual die cavity side plate 3-1-3-5, the one end near former pushing mechanism 3-1-2 is installed with a pressure down being vertically arranged
Cylinder 3-1-3-6, this lower air cylinder 3-1-3-6 outfan connects has mould block 3-1-3-7, in cavity side
Plate 3-1-3-5 arranges one end of lower air cylinder 3-1-3-6 and is additionally provided with rotation clasp 3-1-3-8, at U-shaped frame
When 3-1-3-3 is in vertical state, the connecting rod of this rotation clasp 3-1-3-8 and former pushing mechanism 3-1-2
The mushroom head of 3-1-2-5 is interlocked.
Precompressed side push mechanism 3-1-4 is arranged on slewing equipment 2 and points to one end of compacting clamping mechanism 3-2, paving
Dress dolly 2-1 after the rotary conveyer structure 2-2 of slewing equipment 2 is delivered at precompressed side push mechanism 3-1-4,
Arbor veneer dried in the dolly 2-1 that mats formation tentatively is suppressed by this precompressed side push mechanism 3-1-4, and
After preliminary compacting, mention the side frame 2-1-2 of the dolly 2-1 that mats formation, the arbor raw material tentatively suppressed is pushed U-shaped
In mould in switching mechanism 3-1-3.Concrete, can refer to Figure 14, precompressed side push mechanism 3-1-4 includes
Precompressed side pushes away support 3-1-4-1, be positioned at precompressed side push away preloaded module 3-1-4-2 above support 3-1-4-1 and
Dolly side frame hoisting module 3-1-4-3, and be positioned at precompressed side and push away the side of side below support 3-1-4-1 and push away mould
Block 3-1-4-4, rotary conveyer structure 2-2 are positioned at the rollgang mechanism 2-2-1 of end and are connected to precompressed side and push away
The dolly 2-1 that mats formation thereon is also delivered to precompressed side and pushes away below support 3-1-4-1 by support 3-1-4-1.
Above-mentioned preloaded module 3-1-4-2 includes that being installed in precompressed side pushes away the pre-force feed of support 3-1-4-1 upper end
Cylinder 3-1-4-2-1, this prefabricating oil cylinder 3-1-4-2-1 outfan connects precompressed pressure head 3-1-4-2-2, precompressed
Pressure head 3-1-4-2-2 is positioned at the surface of the dolly 2-1 that mats formation and its precompressed area and mats formation dolly 2-1's
Arbor veneer area is identical, is installed with and pushes away support 3-1-4-1 through precompressed side on precompressed pressure head 3-1-4-2-2
Top and can relative to precompressed side push away support 3-1-4-1 slide the first lead 3-1-4-2-3, pass through precompressed
Oil cylinder 3-1-4-2-1 and the first lead 3-1-4-2-3, it is possible to make precompressed pressure head 3-1-4-2-2 to paving
Arbor veneer in dress dolly 2-1 is the most tentatively suppressed.
Dolly side frame hoisting module 3-1-4-3 includes that being installed in precompressed side pushes away the two of support 3-1-4-1 upper end
Individual lift cylinder 3-1-4-3-1 and the hoist hook being connected with lift cylinder 3-1-4-3-1 outfan
3-1-4-3-2, above-mentioned two hoist hook 3-1-4-3-2 are positioned at precompressed pressure head 3-1-4-2-2 both sides, and it is used for
The side frame 2-1-2 of the both sides of the dolly 2-1 that mats formation is promoted and transfers, at the side frame by the dolly 2-1 that mats formation
When 2-1-2 promotes, U-shaped switching mechanism 3-1-3 is in flip horizontal state, and its interior mould openings points to paving
Dress dolly 2-1.
Side pushes away module 3-1-4-4 and includes that being fixed in precompressed side pushes away the level frame of support 3-1-4-1 side
3-1-4-4-1, is installed with side push oil cylinder 3-1-4-4-2 on level frame 3-1-4-4-1, this side push oil cylinder
The outfan of 3-1-4-4-2 points to precompressed side and pushes away support 3-1-4-1 setting and be connected with side push plate
3-1-4-4-3, this side push plate 3-1-4-4-3 will be for mating formation little in dolly side frame hoisting module 3-1-4-3
After the side frame 2-1-2 of car 2-1 promotes, the arbor veneer side mated formation in dolly 2-1 is pushed into U-shaped tipper
In mould in structure 3-1-3.
Cope match-plate pattern conveying mechanism 3-1-5 is positioned at the side of U-shaped switching mechanism 3-1-3 and is partially disposed in U-shaped turning over
The top of rotation mechanism 3-1-3, for the mould conveying cope match-plate pattern 3-1-5-0 in U-shaped switching mechanism 3-1-3,
As shown in figure 15, this cope match-plate pattern conveying mechanism 3-1-5 includes being positioned at the upper of U-shaped switching mechanism 3-1-3 side
Template transfer gantry 3-1-5-1, at this cope match-plate pattern transfer gantry 3-1-5-1 near U-shaped switching mechanism 3-1-3
Side be additionally provided with cope match-plate pattern absorption carriage 3-1-5-2, this cope match-plate pattern absorption carriage 3-1-5-2 both sides set
Having the second line slideway 3-1-5-3, the other end of this second line slideway 3-1-5-3 is placed in U-shaped switching mechanism
3-1-3 upper end, the side being positioned at the second line slideway 3-1-5-3 is additionally provided with tooth bar 3-1-5-4, straight second
Line guide rail 3-1-5-3 is provided with the link 3-1-5-5 slid along, and is provided with on this link 3-1-5-5
Cope match-plate pattern absorption carriage cylinder 3-1-5-6, the outfan of this cope match-plate pattern absorption carriage cylinder 3-1-5-6 connects to be had
Cope match-plate pattern pressure head 3-1-5-7, is provided with some electric magnet 3-1-5-8 in this cope match-plate pattern pressure head 3-1-5-7, passes through
Electric magnet 3-1-5-8 can make cope match-plate pattern pressure head 3-1-5-7 adsorb cope match-plate pattern 3-1-5-0.At link
3-1-5-5 is provided with servomotor 3-1-5-9, and the outfan of servomotor 3-1-5-9 is connected with and tooth bar
3-1-5-4 meshed gears, by servomotor 3-1-5-9 enable to link 3-1-5-5 and its on
Cope match-plate pattern absorption carriage cylinder 3-1-5-6, cope match-plate pattern pressure head 3-1-5-7 and cope match-plate pattern 3-1-5-0 along the
Two line slideway 3-1-5-3 move, and are finally moved to above U-shaped switching mechanism 3-1-3 locate.
It is provided with the conveying that some sensings U-shaped switching mechanism 3-1-3 is arranged at cope match-plate pattern transfer gantry 3-1-5-1
Roller, slides on conveying roller and is provided with upper mold sheet frame 3-1-5-a, be placed with some upper molds in it in a superimposed manner
Plate 3-1-5-0, this upper mold sheet frame 3-1-5-a pass through the 5th reducing motor 3-1-5-b and chain at conveying roller
Upper slip, and slide into the lower section of cope match-plate pattern pressure head 3-1-5-7, by cope match-plate pattern pressure head 3-1-5-7 on this
Cope match-plate pattern 3-1-5-0 in pattern plate bolster 3-1-5-a adsorbs.
Below the work process of the above-mentioned precompressed mechanism 3 of the present embodiment is illustrated:
Mold mechanism 3-1-1 is sent to drive promotion plate 3-1-1-3 under the effect of its 3rd reducing motor 3-1-1-2
Transporting mould is sending on die road 3-1-1-4 to Universal caster 3-1-1-5 at movement (i.e. to former pushing mechanism
Move at 3-1-2 station), after mould moves to Universal caster 3-1-1-5, its side is sticked and is guiding
On wheel 3-1-1-6.After mould is transported at Universal caster 3-1-1-5, the of former pushing mechanism 3-1-2
Four reducing motor 3-1-2-6 drive push pedal 3-1-2-3 by mould at Universal caster 3-1-1-5 and directive wheel
It is pushed under the effect of 3-1-1-6 in U-shaped switching mechanism 3-1-3.When mould is completely into U-shaped switching mechanism
After 3-1-3, the push pedal 3-1-2-3 of former pushing mechanism 3-1-2 moves back under the driving of the 4th reducing motor 3-1-2-6
Return.The promotion plate 3-1-1-3 sending mold mechanism 3-1-1 transports second mould and prepares next cycle of operation.
The U-shaped frame 3-1-3-3 of the most U-shaped switching mechanism 3-1-3 retraction by oil cylinder 3-1-3-4, around rotation
Rotating shaft 3-1-3-2 is turned into level.
In at the same time, the dolly 2-1 that mats formation runs at precompressed side push mechanism 3-1-4, preloaded module 3-1-4-2
Prefabricating oil cylinder 3-1-4-2-1 drive precompressed pressure head 3-1-4-2-2 leading at the first lead 3-1-4-2-3
Under effect, the descending arbor veneer to mating formation in dolly 2-1 is tentatively suppressed.At precompressed pressure head
After 3-1-4-2-2 is pressed into setting position to arbor veneer, the side frame 2-1-2 of the dolly 2-1 that mats formation is by dolly side
The hoist hook 3-1-4-3-2 that the lift cylinder 3-1-4-3-1 of frame hoisting module 3-1-4-3 drives promotes.
After the side frame 2-1-2 of the dolly 2-1 that mats formation is thus lifted to setting position, side pushes away module 3-1-4-4
Side push oil cylinder 3-1-4-4-2 drives side push plate 3-1-4-4-3 to advance, and by the guide effect of lead
Arbor veneer semi-finished product after tentatively compacting are pushed in U-shaped frame 3-1-3-3, then side push oil cylinder
3-1-4-4-2 drives side push plate 3-1-4-4-3 to return, and prefabricating oil cylinder 3-1-4-2-1 drives precompressed pressure head
3-1-4-2-2 is retracted into initial position.
After side push plate 3-1-4-4-3 returns to initial position, lift cylinder 3-1-4-3-1 drives lifting
The side frame 2-1-2 of the dolly 2-1 that mats formation is dropped back into and is inserted into the base plate of dolly 2-1 of mating formation by hook 3-1-4-3-2
On 2-1-1.Then the empty dolly 2-1 that mats formation is retracted into revolution dress under the effect of rollgang mechanism 2-2-1
Put on 2, slewing equipment 2 runs prepare to roll the recycling mated formation.
After above-mentioned prefabricating oil cylinder 3-1-4-2-1 returns to initial position, U-shaped switching mechanism 3-1-3's is U-shaped
Frame 3-1-3-3 is driven to vertical state, the rotation of U-shaped switching mechanism 3-1-3 by stretching out of oil cylinder 3-1-3-4
Turn clasp 3-1-3-8 to be affiliated on the mushroom head of the connecting rod 3-1-2-5 end of former pushing mechanism 3-1-2;With
Time cope match-plate pattern conveying mechanism 3-1-5 cope match-plate pattern absorption carriage cylinder 3-1-5-6 decline, its connect upper mold
Upper mold in the electric magnet 3-1-5-8 energising absorption upper mold sheet frame 3-1-5-a installed in plate pressure head 3-1-5-7
Plate 3-1-5-0, then cope match-plate pattern absorption carriage cylinder 3-1-5-6 rises to specific bit and postpones, by servo electricity
Machine 3-1-5-9 drives the engagement of wheel and rack 3-1-5-4 to make link 3-1-5-5 lead along the second straight line
Rail 3-1-5-3 runs to the surface after U-shaped switching mechanism 3-1-3 resets, the conveying of cope match-plate pattern absorption subsequently
Oil cylinder 3-1-5-6 drops to above the mould in U-shaped frame 3-1-3-3, by electric magnet 3-1-5-8 power-off,
On arbor veneer semi-finished product after the preliminary compacting that cope match-plate pattern 3-1-5-0 is placed in U-shaped frame 3-1-3-3.
When not having cope match-plate pattern 3-1-5-0 in upper mold sheet frame 3-1-5-a, upper mold sheet frame 3-1-5-a slows down the 5th
Run laterally under the effect of motor 3-1-5-b and chain, manually hang cope match-plate pattern 3-1-5-0, when
After cope match-plate pattern 3-1-5-0 hangs, upper mold sheet frame 3-1-5-a at the 5th reducing motor 3-1-5-b and
Run the underface to cope match-plate pattern pressure head 3-1-5-7 to inner side under the effect of chain, in case circulation industrial next time
Make.
Lower air cylinder 3-1-3-6 after cope match-plate pattern 3-1-5-0 is placed on mould, in U-shaped frame 3-1-3-3
Driving mould block 3-1-3-7 descending, then former pushing mechanism 3-1-2 is the 4th reducing motor 3-1-2-6's
Effect is lower promotes push pedal 3-1-2-3 to move, and at Universal caster 3-1-1-5 and is led by second above-mentioned mould
It is pushed in U-shaped switching mechanism 3-1-3 under the effect of wheel 3-1-1-6;Push pedal 3-1-2-3 passes through simultaneously
Connecting rod 3-1-2-5 promotes the 3-1-2-4 that cuts somebody's hair move along the first line slideway 3-1-2-2 and promote mould
The outside of tool block 3-1-3-7, and after the inner side of mould block 3-1-3-7 promotes the preliminary compacting of loading
First mould of arbor veneer semi-finished product be inconjunction with die cavity side plate 3-1-3-5 and push compacting Mould locking machine together
In the die cavity of structure 3-2.
3.2) compacting clamping mechanism 3-2
It is connected to the U-shaped switching mechanism 3-1-3 of precompressed mechanism 3-1 with reference to Fig. 9, compacting clamping mechanism 3-2,
After the mould of the arbor veneer semi-finished product after the preliminary compacting of loading is transported to suppress in clamping mechanism 3-2, by
It is also locked by its compacting after pressing, and concrete, above-mentioned compacting clamping mechanism 3-2 is mainly by suppressing
Mechanism 3-2-1, clamping mechanism 3-2-2, side wear pin mechanism 3-2-3, anti-rise pin placement mechanism 3-2-4 and
Discharging roller-way mechanism 3-2-6 forms.
As shown in figure 16, mould (the label 3-2-5 shown in Figure 16) is positioned at briquetting machine 3-2-1,
The lock being placed in mould 3-2-5 side (the specially left side shown in Figure 16) it is additionally provided with in briquetting machine 3-2-1
Mold mechanism 3-2-2, and the side being placed in mould 3-2-5 opposite side (the specially right side shown in Figure 16) wears
Pin mechanism 3-2-3, briquetting machine 3-2-1 are provided with anti-pin placement of rising away from one end of U-shaped switching mechanism 3-1-3
Mechanism 3-2-4, the anti-pin placement mechanism 3-2-4 that rises are connected to annealing device by discharging roller-way mechanism 3-2-6
4 (with reference to Fig. 9).
Wherein briquetting machine 3-2-1 includes suppressing bearing 3-2-1-1, die cavity side plate 3-1-3-5 and mould
3-2-5 is placed in compacting bearing 3-2-1-1, is provided with compacting slide block 3-2-1-2 on compacting bearing 3-2-1-1,
Described compacting slide block 3-2-1-2 by driving means (the such as power source such as cylinder, oil cylinder) drive can on move down
Dynamic, its lower end is connected with pressure head 3-2-1-3, described pressure head 3-2-1-3 and is positioned at the surface of mould 3-2-5,
For the arbor veneer semi-finished product in mould 3-2-5 are suppressed.
Clamping mechanism 3-2-2 includes the mould left pressing plate oil cylinder 3-2-2-1 being positioned on compacting bearing 3-2-1-1,
Its outfan connects has mould left pressing plate 3-2-2-2, mould left pressing plate oil cylinder 3-2-2-1 to stretch out left for mould pressure
Plate 3-2-2-2 is against on the left surface of die cavity side plate 3-1-3-5, and locking die cavity fixes mould 3-2-5.At mould
The voussoir ejection cylinder being positioned on compacting bearing 3-2-1-1 vertically it is provided with below tool left pressing plate oil cylinder 3-2-2-1
3-2-2-3, its outfan connects voussoir 3-2-2-4, is stretched out wedge by voussoir ejection cylinder 3-2-2-3
Block 3-2-2-4 rises to, on the left of mould left pressing plate 3-2-2-2, be fixed by mould left pressing plate 3-2-2-2, enter
Mould 3-2-5 is locked by one step.Clamping mechanism 3-2-2 also includes being positioned on compacting bearing 3-2-1-1
Upper ejection cylinder 3-2-2-5, its outfan connect have knock-pin 3-2-2-6, this knock-pin 3-2-2-6 position
Top in voussoir 3-2-2-4.
As shown in figure 17, side is worn pin mechanism 3-2-3 and is included being positioned at the side of compacting bearing 3-2-1-1 and wear pin and prop up
Seat 3-2-3-1, this side wears pin bearing 3-2-3-1 and is provided with working face 3-2-3-2, and at this working face
Equidistantly run through on 3-2-3-2 is provided with multiple placing trough 3-2-3-3, places in placing trough 3-2-3-3
There is side to wear pin 3-2-3-4, be arranged over side in the side of working face 3-2-3-2 and wear pin push pedal 3-2-3-5,
This side is worn the lower end of pin push pedal 3-2-3-5 and is provided with push rod 3-2-3-6, and side is provided with wears pin oil cylinder 3-2-3-7,
The oil cylinder seat wearing pin oil cylinder 3-2-3-7 is installed on cylinder bracket 3-2-3-8, this cylinder bracket 3-2-3-8
Then it is fixed on compacting bearing 3-2-1-1.Wearing pin oil cylinder 3-2-3-7 by driving, it drives push rod 3-2-3-6
Side is worn in the pinned hole that pin 3-2-3-4 pushes mould.
Side is worn pin mechanism 3-2-3 and is also included that being positioned at side wears the 3rd line slideway on pin bearing 3-2-3-1
3-2-3-9, as shown in Figure 17 and 18, is provided with, on the 3rd line slideway 3-2-3-9, the cunning slid along
Block 3-2-3-a, slide block 3-2-3-a side is connected with pin case 3-2-3-b, and the bottom of pin case 3-2-3-b is provided with
Side is worn pin and is placed mouth, wears pin 3-2-3-4, at pin case 3-2-3-b for setting side in placing trough 3-2-3-3
Bottom be provided with rolling bearing 3-2-3-c.Wear in side on pin bearing 3-2-3-1 and be positioned at the 3rd line slideway
One end of 3-2-3-9 is provided with the 6th reducing motor 3-2-3-d, and its drive connection has Timing Belt 3-2-3-e, sliding
The lower surface of block 3-2-3-a is fixed on Timing Belt 3-2-3-e, is driven by the 6th reducing motor 3-2-3-d
Dynamic Timing Belt 3-2-3-e moves, and then drives slide block 3-2-3-a thereon and pin case 3-2-3-b along the
Three line slideway 3-2-3-9 move on working face 3-2-3-2, and mobile to placing trough 3-2-3-3
During top, in placing trough 3-2-3-3, setting side wears pin 3-2-3-4.
With reference to Figure 19 and Figure 20, the anti-pin placement mechanism 3-2-4 that rises includes the anti-pin bearing 3-2-4-1 that rises, and this is prevented
Pin bearing 3-2-4-1 lower end of rising is provided with placement mould the mould support rollgang 3-2-4-2 of delivery mold,
This mould support rollgang 3-2-4-2 realizes support and the conveying of mould by reducing motor and chain.
Be installed with anti-the rise pin vertical in the upper end of the anti-pin bearing 3-2-4-1 that rises places oil cylinder 3-2-4-3, its outfan
Connecting and have placement pressing plate 3-2-4-4, the lower section being positioned at placement pressing plate 3-2-4-4 is provided with some spaced sets
Electric magnet 3-2-4-5, is used for adsorbing the anti-pin 3-2-4-b that rises, in the spacing of this electric magnet 3-2-4-5 and mould
The spacing of the anti-pin putting hole that rises consistent.If being installed with dry-charged plates at placement pressing plate 3-2-4-4 upper surface to wear
Cross the second lead 3-2-4-6 of the anti-pin bearing 3-2-4-1 that rises, for the guiding placing pressing plate 3-2-4-4
And support.
Preferably, it is additionally provided with the 4th line slideway 3-2-4-7 in the left and right sides of the anti-pin bearing 3-2-4-1 that rises,
On it, slip is provided with the anti-pin framework 3-2-4-8 that rises, and this anti-pin framework 3-2-4-8 that rises is driven by reducing motor.
It is further preferred that at mould support rollgang 3-2-4-2 away from one end of briquetting machine 3-2-1
The most vertical is provided with positional cylinder 3-2-4-9, and its outfan is connected with locating piece 3-2-4-a.
Include discharging roller-way 3-2-6-1 with reference to Figure 20, discharging roller-way mechanism 3-2-6, and be positioned at discharge roller
The 7th reducing motor 3-2-6-2 on road 3-2-6-1, it is driven on discharging roller-way 3-2-6-1 by chain
Discharge roller rotate, and then make mould thereon move.
The work process that the present embodiment is suppressed clamping mechanism 3-2 below is illustrated:
After mould and die cavity side plate 3-1-3-5 are pushed into briquetting machine 3-2-1 together, clamping mechanism
The mould left pressing plate oil cylinder 3-2-2-1 of 3-2-2 drives mould left pressing plate 3-2-2-2 to advance, and mould 3-2-5 is solid
Fixed, then voussoir ejection cylinder 3-2-2-3 promotes voussoir 3-2-2-4 to rise by mould 3-2-5 further admittedly
Fixed.
Compacting slide block 3-2-1-2 band dynamic head 3-2-1-3 fast downlink subsequently, pressure head 3-2-1-3 goes downwards to
Specific bit postpone start to pressurize descending.After pressure head 3-2-1-3 is depressed into setting position, U-shaped switching mechanism
Lower air cylinder 3-1-3-6 in 3-1-3 drives mould block 3-1-3-7 to return rising, above-mentioned former pushing mechanism
3-1-2 starts to return by the 4th reducing motor 3-1-2-6, by the turn buckle of U-shaped switching mechanism 3-1-3
The mating band dynamic model chamber side plate 3-1-3-5 of hook 3-1-3-8 and connecting rod 3-1-2-5 returns to initial position,
Prepare next U-shaped upset and preliminary compacting circulation work.
After pressure head 3-2-1-3 is depressed into setting position, wears pin oil cylinder 3-2-3-7 and promote side to wear pin push pedal
3-2-3-5 advances, and side is worn pin push pedal 3-2-3-5 and by push rod 3-2-3-6, side worn pin 3-2-3-4 and push mould
In the pinned hole of tool, after completing, wear pin oil cylinder 3-2-3-7 and drive relevant apparatus to return.
Go up subsequently ejection cylinder 3-2-2-5 descending and drive knock-pin 3-2-2-6 end clash into voussoir
3-2-2-4, voussoir ejection cylinder 3-2-2-3 returns and drives voussoir 3-2-2-4 descending simultaneously, then mould
Left pressing plate oil cylinder 3-2-2-1 driven mold left pressing plate 3-2-2-2 returns.
Go up the up backhaul of ejection cylinder 3-2-2-5 afterwards, suppress slide block 3-2-1-2 pressure release backhaul, to backhaul
Stop.In the process, the mould dress of each work the most U-shaped switching mechanism 3-1-3 of precompressed mechanism 3-1
The loading of the arbor veneer after load, preliminary compacting, preliminary compacting and the placement repetitive cycling of cope match-plate pattern
Complete.Pin case 3-2-3-b setting side in placing trough 3-2-3-3 wears pin 3-2-3-4 simultaneously, and wears pin in side
After 3-2-3-4 places, it is back in situ, be worn side subsequently under the drive of the 6th reducing motor 3-2-3-d
Pin 3-2-3-4 put in pin case 3-2-3-b with circulation carry out side next time wear pin 3-2-3-4 place work.
After pin 3-2-3-4 placement is worn in above-mentioned side, the former pushing mechanism 3-1-2 of preamble can start to U-shaped
Pushing the 3rd mould in switching mechanism 3-1-3, second mould then can be by first mould ejection compacting
Mechanism 3-2-1, and push up to the mould support rollgang 3-2-4-2 of the anti-pin placement mechanism 3-2-4 that rises, and
Locating piece 3-2-4-a is driven to stop spacing by first mould by positional cylinder 3-2-4-9 thereon.
When first mould is placed into the mould support rollgang 3-2-4-2 of the anti-pin placement mechanism 3-2-4 that rises
On, mould support rollgang 3-2-4-2 first mould is quickly transported briquetting machine 3-2-1.Simultaneously
After the regular hour, second mould is in former pushing mechanism 3-1-2 is pushed into briquetting machine 3-2-1
Appointment position, suppress circulation work the most next time.
First mold impingement to can be out of service after the locating piece 3-2-4-a on positional cylinder 3-2-4-9,
Placing oil cylinder 3-2-4-3 by the anti-pin that rises afterwards drives placement pressing plate 3-2-4-4 at the second lead 3-2-4-6
Effect under descending, and then drive to place and adsorbing below pressing plate 3-2-4-4 anti-rise pin 3-2-4-b's
Electric magnet 3-2-4-5 is descending, power-off after placing that pressing plate 3-2-4-4 is descending and putting in place, the anti-pin 3-2-4-b quilt that rises
It is placed on mould.Then the anti-pin that rises is placed oil cylinder 3-2-4-3 and is driven placement pressing plate 3-2-4-4 rising, on
Rise after putting in place, be placed with the anti-pin framework 3-2-4-8 that rises of the anti-pin 3-2-4-b that rises and be driven to inner side and run to
Placing the underface of pressing plate 3-2-4-4, then the anti-pin that rises is placed oil cylinder 3-2-4-3 and is driven placement pressing plate
3-2-4-4 is the most descending, place pressing plate 3-2-4-4 is descending put in place after electric magnet 3-2-4-5 thereon energising inhale
The attached anti-pin 3-2-4-b that rises, then the anti-pin placement oil cylinder 3-2-4-3 that rises drives placement pressing plate 3-2-4-4 again to go up
Rising, the anti-pin 3-2-4-b that rises adsorbed waits the placement of the anti-pin that rises next time.Place pressing plate 3-2-4-4
Rising after putting in place, the anti-pin framework 3-2-4-8 that rises is driven to outside and runs to manually put at pin, carries out artificial
On the anti-pin framework 3-2-4-8 that rises, place the anti-pin 3-2-4-b that rises, wait that the work of the anti-pin that rises of absorption next time follows
Ring.
After placing the anti-pin 3-2-4-b that rises and the anti-pin that rises is placed after oil cylinder 3-2-4-3 rises and put in place,
Positional cylinder 3-2-4-9 returns, the mould containing presswork by mould support rollgang 3-2-4-2 to
Run on discharging rollgang 3-2-6.
4), annealing device 4
As shown in figure 21, annealing device 4 mainly by heat treatment rollgang 4-1, heat treatment kiln 4-2 with
And manipulator mechanism 4-3 composition.
Above-mentioned heat treatment rollgang 4-1 is positioned at one end of discharging roller-way mechanism 3-2-6, heat treatment kiln 4-2
Be positioned on heat treatment rollgang 4-1, discharging roller-way mechanism 3-2-6 and heat treatment rollgang 4-1 it
Between be provided with above-mentioned manipulator mechanism 4-3, heat treatment rollgang 4-1 is partially disposed in heat treatment kiln 4-2,
By manipulator mechanism 4-3, the mould containing the sectional material blank after compacting on discharging roller-way mechanism 3-2-6 is put
Put on heat treatment rollgang 4-1, and be delivered to heat treatment kiln 4-2 by heat treatment rollgang 4-1
Inside carry out heat treatment, to form final wooden fundamental mode material.
Support beam 4-3-1 is included, this support beam 4-3-1 with reference to Figure 22 and Figure 23, above-mentioned manipulator mechanism 4-3
Being positioned at the top of discharging roller-way mechanism 3-2-6, its upper end is provided with gripper shoe 4-3-2, gripper shoe 4-3-2 sets
Having the first servomotor 4-3-3, this first servomotor 4-3-3 drive connection has and sets through gripper shoe 4-3-2
The spiral lift 4-3-4 put, the outfan of spiral lift 4-3-4 is provided with connection seat 4-3-5, this connection
Seat 4-3-5 is positioned at below gripper shoe 4-3-2, and which is provided with and slide through the lifting of gripper shoe 4-3-2 and lead
Post 4-3-b, is provided with manipulator cylinder 4-3-6 connecting on seat 4-3-5, and this manipulator cylinder 4-3-6's is defeated
Go out to hold connection to have mechanical hand 4-3-7, and when this manipulator cylinder 4-3-6 stretches out, at mechanical hand 4-3-7
In open configuration, mould is captured.Being provided with lock pin cylinder 4-3-8 connecting on seat 4-3-5, its outfan is stretched
When going out, the open configuration of mechanical hand 4-3-7 is locked.
Preferably, being additionally provided with the 5th line slideway 4-3-9 in support beam 4-3-1, gripper shoe 4-3-2 is along being somebody's turn to do
5th line slideway 4-3-9 is slidably, concrete, is provided with the second servomotor in gripper shoe 4-3-2
4-3-a, its outfan passes gripper shoe 4-3-2, and drives gripper shoe 4-3-2 edge by pinion and rack
5th line slideway 4-3-9 slides.
Include some conveying rollers with reference to Figure 24, heat treatment rollgang 4-1 and drive subtracting of conveying roller rotation
Speed motor and chain, it runs through heat treatment kiln 4-2 and arranges.Heat treatment kiln 4-2 is relative to heat treatment conveying roller
Road 4-1 closes setting.
Below the work process of the above-mentioned annealing device 4 of the present invention is illustrated:
After the mould of the arbor veneer finished product containing compacting runs to the end of discharging rollgang 3-2-6, machine
Tool mobile phone structure 4-3 is positioned at the surface of discharging rollgang 3-2-6, is driven by the first servomotor 4-3-3
Dynamic spiral lift 4-3-4 declines and driving mechanical hands 4-3-7 drops to appointment position, then mechanical hand
4-3-7 opens under the driving of manipulator cylinder 4-3-6, and lock pin cylinder 4-3-8 advance subsequently promotes pin lock
Tight mechanical hand 4-3-7, drives spiral lift 4-3-4 to rise and band motivation by the first servomotor 4-3-3
The mould of the arbor veneer finished product containing compacting is risen to specify position, subsequently mechanical hand 4-3-7 by tool hands 4-3-7
Moved at heat along the 5th line slideway 4-3-9 by the second servomotor 4-3-a and pinion and rack
It is put on heat treatment rollgang 4-1 above reason rollgang 4-1 and by this mould, lock pin cylinder subsequently
4-3-8 returns and cancels pin, and manipulator cylinder 4-3-6 returns and makes mechanical hand 4-3-7 close and decontrol above-mentioned
Mould, drives spiral lift 4-3-4 to rise driving mechanical hands by the first servomotor 4-3-3 afterwards
4-3-7 rises to specify position, then is moved horizontally to rollgang at discharging by the second servomotor 4-3-a
The surface of 3-2-6, prepares the mould of a set of arbor veneer finished product containing compacting under lifting.
After above-mentioned mould is put into heat treatment rollgang 4-1 and quantity reaches to five, heat treatment kiln 4-2
Door open, subsequently heat-treated rollgang 4-1 runs rapidly and is transported in heat treatment kiln 4-2 by mould,
When its mould is completely in heat treatment kiln 4-2, being closed by door, heat treatment rollgang 4-1 is with 0.1m/min
Speed advance, the mould of arbor veneer finished product containing compacting is through at the beginning of 150 DEG C of temperature of heat treatment kiln 4-2
Section, the most again through the interlude of 130 DEG C of temperature, finally by the latter end natural cooling of heat treatment kiln 4-2,
In the process the sectional material blank in mould is carried out glued to suppress Stress Release, form the present embodiment final
Wooden fundamental mode material, and transfer out heat treatment kiln 4-2 by heat treatment rollgang 4-1.
5), finished product piling apparatus 5
Finished product piling apparatus 5 is positioned at the side of above-mentioned heat treatment kiln 4-2, is used for placing and pile up thermally treated
The mould equipped with above-mentioned wood fundamental mode material after kiln 4-2 heat treatment.
Can refer to Figure 25, this finished product piling apparatus 5 include roller bed frame 5-1, finished product pile up rollgang 5-2,
Rise and fall roller 5-3 and mould ejection plate 5-4, wherein:
Roller bed frame 5-1 both sides are provided with finished product and pile up rollgang 5-2, and this finished product is piled up rollgang 5-2 and included
In column and equally spaced setting some finished products pile up conveying roller 5-2-1, above-mentioned two row finished products pile up conveying
The identical end of roller-way 5-2 be equipped with some can the rise and fall roller 5-3 of vertical lifting, above-mentioned rise and fall roller
5-3 piles up between conveying roller 5-2-1 at two adjacent finished products, and each rise and fall roller 5-3 is provided with some
The rotating direction that the rotating direction of roller and roller piles up conveying roller 5-2-1 with finished product is perpendicular.The present embodiment
In, the roller rotating direction of rise and fall roller 5-3 is identical, i.e. with the conveying direction of heat treatment rollgang 4-1
The mould containing presswork of thermally treated rollgang 4-1 conveying can be transported on rise and fall roller 5-3.
The one end arranging rise and fall roller 5-3 at finished product accumulation rollgang 5-2 is additionally provided with a mould ejection plate 5-4, and it is sliding
Move and be arranged on line slideway and drive mould to push away by the way of reducing motor drives chain or rack-and-pinion
Plate 5-4 moves.
Concrete, after the mould containing presswork is by heat treatment kiln 4-2, the liter of finished product piling apparatus 5
Fall roller-way 5-3 rises jack-up, and after accepting five moulds containing presswork, its rise and fall roller 5-3 falls,
And making mould be placed on finished product accumulation rollgang 5-2, finished product piling apparatus 5 is by its reducing motor subsequently
Drive mould ejection plate 5-4 to promote the mould containing presswork, pile up conveying roller 5-2-1 through finished product and be pushed to week
Turn on conveyer device 8.
6), removing device 6
Removing device 6 is for dismantling the mould containing presswork, and it is positioned at two revolution rollgangs
Between device 7;Concrete, as shown in Figure 26 and Figure 27, this removing device 6 includes the first support body 6-1
And the second support body 6-2, wherein the first support body 6-1 is positioned at the lower section of the second support body 6-2, at the first support body
6-1 is provided with mould and places roller-way 6-3 and be positioned at the wooden a tree, used in making timber for boats roller-way 6-4 of mould placement roller-way 6-3 side,
Placing at mould and be provided with some lower ejection cylinder 6-5 below roller-way 6-3, its outfan may pass through mould and places roller
Road 6-3 and through U-shaped mould 6-0 (in the present embodiment mould 3-2-5 mainly by U-shaped mould 6-0 and on
Template 3-1-5-0 is constituted) the wooden a tree, used in making timber for boats 6-0-b (the most final presswork) in mould pushes up by hole on base plate
Go out U-shaped mould 6-0.Being provided with moveable cylinder rack 6-6 on the second support body 6-2, this cylinder rack 6-6 can
Realize mobile by the propelling movement oil cylinder 6-0-a being fixed on the second support body 6-2, the movement of this cylinder rack 6-6
Direction is perpendicular with the conveying direction of U-shaped mould 6-0, is provided with form removal oil cylinder 6-7 in cylinder rack 6-6, its
Outfan is connected with support hook plate 6-8, this support hook plate 6-8 upper end and is fixedly provided with and slides through cylinder rack 6-6
The 3rd lead 6-9.
When the U-shaped mould 6-0 equipped with wood a tree, used in making timber for boats 6-0-b (i.e. presswork) runs to immediately below removing device 6
Mould place after roller-way 6-3, lower ejection cylinder 6-5 outfan through the bottom outlet of U-shaped mould 6-0 by wood
A tree, used in making timber for boats 6-0-b jack-up, supports hook plate 6-8 simultaneously and comes downwards to wood a tree, used in making timber for boats 6-0-b under the driving of form removal oil cylinder 6-7
And at the plan-position between U-shaped mould 6-0, then push oil cylinder 6-0-a and promote cylinder rack 6-6 to roll
Advancing, after support hook plate 6-8 is forwarded to the subjacent of wood a tree, used in making timber for boats 6-0-b, form removal oil cylinder 6-7 drives and props up
Stay hook plate 6-8 rises, and makes support hook plate 6-8 hook wood a tree, used in making timber for boats 6-0-b and is up to specify position, then pushes
Oil cylinder 6-0-a again promotes cylinder rack 6-6 and drives support hook plate 6-8 and wood a tree, used in making timber for boats 6-0-b to proceed to wood a tree, used in making timber for boats
The surface of roller-way 6-4, oil cylinder 6-7 is descending in form removal, is transported to by wood a tree, used in making timber for boats 6-0-b on wood a tree, used in making timber for boats roller-way 6-4,
Then descend ejection cylinder 6-5 to be retracted in situ, push oil cylinder 6-0-a subsequently and be retracted in situ.Wood a tree, used in making timber for boats afterwards
6-0-b slides along wood a tree, used in making timber for boats roller-way 6-4, is then passed through fork truck fortune and cuts to length saw and to carry out next step at equipment and add
Work.
U-shaped mould 6-0 then places roller-way 6-3 by mould and runs to turn round on roller-conveying device 7, by it
It is delivered to U-shaped mould pile up on conveyer device 10, uses for the precompressed mechanism 3-1 needing pressure setting 3.
7), revolution roller-conveying device 7
With reference to Figure 28, revolution roller-conveying device 7 is perpendicular to have enough to meet the need conveyer device 8 and arranges, and it includes some
Duan Huizhuan rollgang 7-1, each revolution rollgang 7-1 all include conveying roller and reducing motor, logical
Crossing reducing motor drives conveying roller to rotate so that mould moves on revolution rollgang 7-1.It may be noted that
It is also to need to be provided with rise and fall roller being connected to have enough to meet the need on the revolution rollgang 7-1 of conveyer device 8, be used for
Accept the mould of turnover conveyer device 8 conveying.Concrete is being connected to have enough to meet the need the revolution conveying of conveyer device 8
During roller-way 7-1 work, first it is that its rise and fall roller rises the mould undertaking containing presswork, lifts subsequently
Roller-way drops to turn round on rollgang 7-1, then carries out side and wears pin, the dismounting of anti-rise pin, cope match-plate pattern.
Wherein cope match-plate pattern is driven by revolution rollgang 7-1 and is transported on cope match-plate pattern accumulation conveyer device 9.Complete
After above-mentioned dismounting turn round rollgang 7-1 by the mould containing presswork under the driving of its conveying roller to form removal
The direction of device 6 is run.
8), turnover conveyer device 8
With reference to Figure 29, this turnover conveyer device 8 includes turnover conveying base 8-1, at turnover conveying base 8-1
Side is provided with the 8th reducing motor 8-2, is provided with two row conveying roller 8-3 on turnover conveying base 8-1,
It is connected to the 8th reducing motor 8-2 by chain.By having enough to meet the need the 8th reducing motor 8-2 of conveyer device 8
Drive conveying roller 8-3 to be carried to revolution roller-conveying device 7 by the mould containing presswork.
In the present embodiment, cope match-plate pattern pile up conveyer device 9 and U-shaped mould pile up conveyer device 10 be positioned to
Revolution roller-conveying device 7 is near one end of pressure setting 3, and cope match-plate pattern piles up conveyer device 9 and U
Mould is piled up conveyer device 10 and is provided with conveying roller and reducing motor, drives conveying by reducing motor
Roller rotates, so that cope match-plate pattern and U-shaped mould can move to desired location.
It should be noted that the control device in the present embodiment uses electric control system, this electrical control system
The functional part (such as cylinder, motor etc.) that is all connected in above-mentioned all parts of system, be used for controlling above-mentioned respectively
The keying of functional part.
The present invention also provides for the production method of a kind of wood fundamental mode material, as shown in figure 30, comprises the steps:
S10: the arbor veneer after modified impregnation is dried by drying device.
I.e. before using the automatic producing device of the present invention, the arbor veneer after modified impregnation is placed
Drying device 1 is dried.
S20: carried by slewing equipment arbor dried to drying device veneer.
After arbor veneer drying in step slo, this arbor veneer is delivered to revolution dress by drying device 1
Put 2 mat formation on dolly 2-1, and moved with the dolly 2-1 that mats formation by Ju Jie mechanism 2-3, and
Arbor veneer carrying out in moving process saw cut, the arbor veneer in dolly 2-1 of mating formation subsequently is transported to pressure
At device 3 processed.
S30: the arbor veneer carried slewing equipment by pressure setting is suppressed.
By pressure setting 3, the arbor veneer mated formation in dolly 2-1 is tentatively suppressed and main compacting.
Concrete, it is that the arbor veneer carried slewing equipment 2 by precompressed mechanism 3-1 is tentatively suppressed, logical
Overvoltage lockmaking mold mechanism 3-2 carries out main compacting to the arbor veneer after preliminary compacting, forms sectional material blank.
S40: the sectional material blank after compacting is carried out heat treatment by annealing device, forms described wood fundamental mode
Material.
The mould that will be equipped with the sectional material blank after compacting transports to heat treatment kiln 4-2 of annealing device 4,
Carry out multistage heat treatment, in heat treatment kiln 4-2, the sectional material blank in mould is carried out gluing and compacting should
Power discharges, and forms final wooden fundamental mode material finished product.
In the present embodiment, after at above-mentioned wood, fundamental mode material finished product formed, also include by removing device 6 to equipped with
The mould of described wood fundamental mode material carries out form removal, subsequently by revolution roller-conveying device 7 by the mould after dismounting
It is transmitted back in situ.
Illustrating of above steps is retouched in the automatic producing device of the wooden fundamental mode material of the present invention
State, the most no longer the concrete steps of the method are repeated here.
The present invention is by above-mentioned automatic producing device and the producer manufacturing wood fundamental mode material with arbor for raw material
Method, is dried the arbor raw material after modified impregnation, assembly of mating formation, shape after compacting and heat treatment successively
Become wood fundamental mode material, improve production efficiency, be advantageously implemented the industrialized production of wood fundamental mode material and answer.
Obviously, the above embodiment of the present invention is only used to understand explanation example of the present invention, and also
Non-is the restriction to embodiments of the present invention.For those of ordinary skill in the field, above-mentioned
Can also make other changes in different forms on the basis of explanation.Here without also cannot be to all
Embodiment give exhaustive.All made within the spirit and principles in the present invention any amendment, equivalent replace
Change and improvement etc., within should be included in the protection domain of the claims in the present invention.
Claims (15)
1. the automatic producing device manufacturing wood fundamental mode material with arbor for raw material, it is characterised in that include
Drying device (1), slewing equipment (2), pressure setting (3), annealing device (4) and control device,
Wherein:
The arbor veneer after modified impregnation it is placed with, for described arbor veneer on described drying device (1)
It is dried;
Described slewing equipment (2) is positioned at below drying device (1) one end, and dried arbor veneer falls into
On the dolly of mating formation (2-1) of slewing equipment (2);
Described pressure setting (3) is located at turn around one end of device (2), described in mat formation in dolly (2-1)
Arbor veneer is transported to described pressure setting (3) place, pressure setting (3) suppress;
Described annealing device (4) is positioned at the side of pressure setting (3), suppresses repressed device (3)
After sectional material blank carry out heat treatment;
Control device, be connected to described drying device (1), slewing equipment (2), pressure setting (3)
And annealing device (4).
Automatic producing device the most according to claim 1, it is characterised in that described drying device (1)
Including being all connected to the feedstock transportation mechanism (1-1) of described control device, mesh dryer (1-2), climbing
Conveying mechanism (1-3) and break-in conveying mechanism (1-4), wherein:
If including, dried layer is setting up and down and the feedstock transportation band (1-1-1) of movement in feedstock transportation mechanism (1-1),
Be positioned at feedstock transportation band (1-1-1) one end and along conveying direction arrange at least one before milling roller (1-1-2)
And at least one rear milling roller (1-1-3), adjacent front milling roller (1-1-2) and rear milling roller (1-1-3)
Between be provided with at least one cutting roller (1-1-4), the arbor veneer after modified impregnation is placed in feedstock transportation band
(1-1-1) on, feedstock transportation band (1-1-1) drive and sequentially pass through front milling roller (1-1-2), cut
It is delivered in mesh dryer (1-2) after roller (1-1-4) and rear milling roller (1-1-3);
Mesh dryer (1-2), is connected to feedstock transportation mechanism (1-1), for feedstock transportation band (1-1-1)
The arbor veneer of conveying is dried;
Climb conveying mechanism (1-3), is arranged at mesh dryer (1-2) and is not connected with feedstock transportation mechanism (1-1)
One end, for conveying through mesh dryer (1-2) dried arbor veneer;
Break-in conveying mechanism (1-4), one end is connected to the conveying mechanism (1-3) that climbs, and the other end is placed in described
The top of slewing equipment (2), the arbor veneer break-in conveying carried for the conveying mechanism (1-3) that will climb
To dolly of mating formation (2-1).
Automatic producing device the most according to claim 1, it is characterised in that described slewing equipment (2)
Including rotary conveyer structure (2-2) and the Ju Jie mechanism (2-3) that is located at turn around on conveying mechanism (2-2),
Described dolly of mating formation (2-1) is placed in rotary conveyer structure (2-2) and above and is driven by mobile, and described saw cuts
Mechanism (2-3) moves with dolly of mating formation (2-1), and to the arbor veneer in dolly of mating formation (2-1)
Saw cuts.
Automatic producing device the most according to claim 3, it is characterised in that described rotary conveyer
Structure (2-2) includes the rollgang mechanism (2-2-1) that first row interconnects, the wherein conveying roller of one end
Road mechanism (2-2-1) is positioned at the lower section of drying device (1), the rollgang mechanism (2-2-1) of the other end
It is connected to pressure setting (3), between Liang Ge rollgang mechanism (2-2-1) of pressure setting (3)
Being provided with the first side steering (2-2-2), described first side steering (2-2-2) other end connects second
Row interconnect rollgang mechanism (2-2-1), the rollgang mechanism (2-2-1) of secondary series away from
One end of first side steering (2-2-2) connects the second side steering (2-2-3), described second break-in
Mechanism (2-2-3) other end connects the rollgang mechanism (2-2-1) of one end described in first row, and described saw cuts
Mechanism (2-3) is positioned at Liang Ge rollgang mechanism (2-2-1) between drying device (1) and pressure setting (3)
Between.
Automatic producing device the most according to claim 4, it is characterised in that described rotary conveyer
Structure (2-2) also includes Weighing mechanism (2-2-4) and the 3rd side steering (2-2-5), and the described 3rd becomes
It is positioned to mechanism (2-2-5) between Liang Ge rollgang mechanism (2-2-1) of first row, Weighing mechanism
(2-2-4) it is arranged between the 3rd side steering (2-2-5) and the first side steering (2-2-2).
Automatic producing device the most according to claim 5, it is characterised in that described Ju Jie mechanism
(2-3) two rollgangs being positioned between drying device (1) and the 3rd side steering (2-2-5) are included
Between mechanism (2-2-1) and the fixing seat (2-3-1) that is fixedly installed, described fixing seat (2-3-1) sets
Having and can cut support (2-3-2) with the saw that dolly of mating formation (2-1) moves relative to it, described saw cuts support (2-3-2)
Connecting and have reset cylinder (2-3-3), described saw cuts support (2-3-2) and is provided with and is perpendicular to dolly (2-1) of mating formation
Moving direction and the saw blade (2-3-4) moved back and forth and be positioned at least one of saw blade (2-3-4) side
Fixing cylinder (2-3-5), the outfan of described fixing cylinder (2-3-5) is connected with fixing pressure head (2-3-6).
Automatic producing device the most according to claim 1, it is characterised in that described pressure setting (3)
Including the precompressed mechanism (3-1) interconnected and compacting clamping mechanism (3-2), described precompressed mechanism (3-1)
It is located at turn around one end of device (2), for the arbor veneer in dolly of mating formation (2-1) is tentatively pressed
Make and be delivered to suppress in clamping mechanism (3-2);Described compacting clamping mechanism (3-2) is positioned at precompressed mechanism
(3-1) side, for carrying out main compacting to the arbor veneer after preliminary compacting.
Automatic producing device the most according to claim 7, it is characterised in that described precompressed mechanism
(3-1) include sending mold mechanism (3-1-1), former pushing mechanism (3-1-2), U-shaped switching mechanism (3-1-3),
Precompressed side push mechanism (3-1-4), cope match-plate pattern conveying mechanism (3-1-5), wherein:
Described send mold mechanism (3-1-1) to be provided with some moulds, and carry described mould to former pushing mechanism
(3-1-2);
Described former pushing mechanism (3-1-2) is connected to U-shaped switching mechanism (3-1-3), for sending mold mechanism
(3-1-1) mould carried pushes in U-shaped switching mechanism (3-1-3);
Described U-shaped switching mechanism (3-1-3) is arranged on one end of described compacting clamping mechanism (3-2), uses
Vertically or horizontally overturn in driving described mould;And the mould in U-shaped switching mechanism (3-1-1) is by module driving machine
Structure (3-1-2) pushes in the die cavity of compacting clamping mechanism (3-2);
Described precompressed side push mechanism (3-1-4) is positioned at the side of U-shaped switching mechanism (3-1-3) and is arranged on
Slewing equipment (2) points to one end of compacting clamping mechanism (3-2), and dolly of mating formation (2-1) is through slewing equipment
(2) being delivered to described precompressed side push mechanism (3-1-4) place, described precompressed side push mechanism (3-1-4) is to paving
Arbor veneer in dress dolly (2-1) is tentatively suppressed, and is mentioning the side frame of dolly of mating formation (2-1)
(2-1-2), after, the arbor veneer tentatively suppressed is pushed the institute in described U-shaped switching mechanism (3-1-3)
State in mould;
Described cope match-plate pattern conveying mechanism (3-1-5) is positioned at the side of described U-shaped switching mechanism (3-1-3),
For carrying cope match-plate pattern to the described mould of U-shaped switching mechanism (3-1-3).
Automatic producing device the most according to claim 7, it is characterised in that described compacting Mould locking machine
Structure (3-2) includes the briquetting machine (3-2-1) being positioned at U-shaped switching mechanism (3-1-3) one end, is positioned at pressure
In mechanism processed (3-2-1) and be placed in the clamping mechanism (3-2-2) of described mould side, it is positioned at briquetting machine
(3-2-1) in and be placed in the side of described mould opposite side and wear pin mechanism (3-2-3), and it is positioned at briquetting machine
(3-2-1) away from the anti-pin placement mechanism (3-2-4) that rises of one end of U-shaped switching mechanism (3-1-3), institute
State the anti-pin placement mechanism (3-2-4) that rises and be connected to described heat treatment dress by discharging roller-way mechanism (3-2-6)
Put (4).
Automatic producing device the most according to claim 9, it is characterised in that described annealing device
(4) include being positioned at the heat treatment rollgang (4-1) of discharging roller-way mechanism (3-2-6) one end and being positioned at
Heat treatment kiln (4-2) on described heat treatment rollgang (4-1), described compacting clamping mechanism (3-2)
The interior thermally treated rollgang of mould (4-1) carries out heat treatment, shape in being delivered to heat treatment kiln (4-2)
Become described wood fundamental mode material;
Preferably, also set between described discharging roller-way mechanism (3-2-6) and heat treatment rollgang (4-1)
Having manipulator mechanism (4-3), described manipulator mechanism (4-3) is by discharging roller-way mechanism (3-2-6)
Mould is placed on heat treatment rollgang (4-1).
11. automatic producing devices according to claim 10, it is characterised in that also include being connected to
The finished product piling apparatus (5) of described control device, described finished product piling apparatus (5) is positioned at described heat treatment
The side of kiln (4-2), be used for after placing thermally treated kiln (4-2) heat treatment equipped with described wood fundamental mode material
Mould;
Preferably, also include being positioned at finished product piling apparatus (5) side and be connected to described control device tear open
Die device (6), described removing device (6) finished product piling apparatus (5) is carried equipped with described wood fundamental mode
The mould of material is dismantled.
Preferably, the revolution roller-conveying device (7) being connected to described control device, described revolution are also included
Roller-conveying device (7) is connected to removing device (6) and is transmitted back in situ by the described mould of dismounting.
12. 1 kinds of production methods manufacturing wood fundamental mode material with arbor for raw material, it is characterised in that include as follows
Step:
By drying device (1), the arbor veneer after modified impregnation is dried;
By slewing equipment (2), drying device (1) dried arbor veneer is carried;
The arbor veneer carried slewing equipment (2) by pressure setting (3) is suppressed;
By annealing device (4), the sectional material blank after compacting is carried out heat treatment, form described wood fundamental mode
Material.
13. production methods according to claim 12, it is characterised in that described in pass through slewing equipment
(2) drying device (1) dried arbor veneer is carried out conveying to include:
Dried arbor veneer is placed by dolly of mating formation (2-1), and by rotary conveyer structure (2-2)
Driving mats formation dolly (2-1) movement to pressure setting (3) place;
Moved with dolly of mating formation (2-1) by Ju Jie mechanism (2-3), and to paving in moving process
Arbor veneer in dress dolly (2-1) carries out saw and cuts.
14. production methods according to claim 13, it is characterised in that described in pass through pressure setting
(3) the arbor veneer carrying slewing equipment (2) carries out compacting and includes:
The arbor veneer carried described slewing equipment (2) by precompressed mechanism (3-1) is tentatively suppressed;
By compacting clamping mechanism (3-2), the arbor veneer after preliminary compacting is carried out main compacting.
15. production methods according to claim 14, it is characterised in that also include:
By removing device (6), the mould equipped with described wood fundamental mode material is carried out form removal;
By revolution roller-conveying device (7), the mould after dismounting and cope match-plate pattern are transmitted back in situ.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610519172.9A CN106003282B (en) | 2016-07-01 | 2016-07-01 | A kind of automatic producing device and method that wooden fundamental mode material is manufactured using arbor as raw material |
DE112017003321.7T DE112017003321T5 (en) | 2016-07-01 | 2017-06-30 | Apparatus and method for producing wood-based profiles |
PCT/CN2017/091340 WO2018001379A1 (en) | 2016-07-01 | 2017-06-30 | Device and method for producing wood-based profiles |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610519172.9A CN106003282B (en) | 2016-07-01 | 2016-07-01 | A kind of automatic producing device and method that wooden fundamental mode material is manufactured using arbor as raw material |
Publications (2)
Publication Number | Publication Date |
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CN106003282A true CN106003282A (en) | 2016-10-12 |
CN106003282B CN106003282B (en) | 2018-01-09 |
Family
ID=57106401
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201610519172.9A Active CN106003282B (en) | 2016-07-01 | 2016-07-01 | A kind of automatic producing device and method that wooden fundamental mode material is manufactured using arbor as raw material |
Country Status (3)
Country | Link |
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CN (1) | CN106003282B (en) |
DE (1) | DE112017003321T5 (en) |
WO (1) | WO2018001379A1 (en) |
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WO2018001379A1 (en) * | 2016-07-01 | 2018-01-04 | 鄂尔多斯市华林沙柳科技有限公司 | Device and method for producing wood-based profiles |
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CN110255200A (en) * | 2019-06-28 | 2019-09-20 | 中集新型环保材料股份有限公司 | The method of blanket conveying and stacking equipment and blanket conveying and stacking |
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Also Published As
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WO2018001379A1 (en) | 2018-01-04 |
DE112017003321T5 (en) | 2019-03-28 |
CN106003282B (en) | 2018-01-09 |
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