CN108638293A - Semi-finished product inorganic fire polyphenylene heat insulation slab production equipment - Google Patents
Semi-finished product inorganic fire polyphenylene heat insulation slab production equipment Download PDFInfo
- Publication number
- CN108638293A CN108638293A CN201810439655.7A CN201810439655A CN108638293A CN 108638293 A CN108638293 A CN 108638293A CN 201810439655 A CN201810439655 A CN 201810439655A CN 108638293 A CN108638293 A CN 108638293A
- Authority
- CN
- China
- Prior art keywords
- plate
- thermal insulation
- insulation board
- conveying device
- chain
- 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
Links
- 238000009413 insulation Methods 0.000 title claims abstract description 158
- 229920000265 Polyparaphenylene Polymers 0.000 title claims abstract description 37
- -1 polyphenylene Polymers 0.000 title claims abstract description 37
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 30
- 239000011265 semifinished product Substances 0.000 title claims abstract description 17
- 239000002002 slurry Substances 0.000 claims abstract description 45
- 238000007599 discharging Methods 0.000 claims abstract description 21
- 238000005086 pumping Methods 0.000 claims abstract description 11
- 230000005540 biological transmission Effects 0.000 claims description 70
- 230000033001 locomotion Effects 0.000 claims description 37
- 238000004321 preservation Methods 0.000 claims description 27
- 239000000446 fuel Substances 0.000 claims description 16
- 239000007788 liquid Substances 0.000 claims description 14
- 230000004224 protection Effects 0.000 claims description 14
- 238000005192 partition Methods 0.000 claims description 13
- 229920006389 polyphenyl polymer Polymers 0.000 claims description 7
- 230000005484 gravity Effects 0.000 claims description 4
- 238000003780 insertion Methods 0.000 claims description 3
- 230000037431 insertion Effects 0.000 claims description 3
- 150000001336 alkenes Chemical class 0.000 claims 1
- 239000004793 Polystyrene Substances 0.000 abstract description 3
- 229920002223 polystyrene Polymers 0.000 abstract description 3
- 239000002699 waste material Substances 0.000 abstract 1
- 230000000694 effects Effects 0.000 description 10
- 238000010586 diagram Methods 0.000 description 8
- UHOVQNZJYSORNB-UHFFFAOYSA-N Benzene Chemical compound C1=CC=CC=C1 UHOVQNZJYSORNB-UHFFFAOYSA-N 0.000 description 3
- 230000006835 compression Effects 0.000 description 2
- 238000007906 compression Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 238000001125 extrusion Methods 0.000 description 2
- 239000012774 insulation material Substances 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- VGGSQFUCUMXWEO-UHFFFAOYSA-N Ethene Chemical compound C=C VGGSQFUCUMXWEO-UHFFFAOYSA-N 0.000 description 1
- 239000005977 Ethylene Substances 0.000 description 1
- 206010054949 Metaplasia Diseases 0.000 description 1
- 238000010521 absorption reaction Methods 0.000 description 1
- 230000003712 anti-aging effect Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 239000003054 catalyst Substances 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000007797 corrosion Effects 0.000 description 1
- 238000005260 corrosion Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000000605 extraction Methods 0.000 description 1
- 239000006260 foam Substances 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 230000008595 infiltration Effects 0.000 description 1
- 238000001764 infiltration Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 230000015689 metaplastic ossification Effects 0.000 description 1
- 238000002156 mixing Methods 0.000 description 1
- 239000004033 plastic Substances 0.000 description 1
- 229920000642 polymer Polymers 0.000 description 1
- 229920005990 polystyrene resin Polymers 0.000 description 1
- 239000002994 raw material Substances 0.000 description 1
- 238000004064 recycling Methods 0.000 description 1
- 238000007789 sealing Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 238000003756 stirring Methods 0.000 description 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B1/00—Producing shaped prefabricated articles from the material
- B28B1/30—Producing shaped prefabricated articles from the material by applying the material on to a core or other moulding surface to form a layer thereon
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B17/00—Details of, or accessories for, apparatus for shaping the material; Auxiliary measures taken in connection with such shaping
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B17/00—Details of, or accessories for, apparatus for shaping the material; Auxiliary measures taken in connection with such shaping
- B28B17/0063—Control arrangements
- B28B17/0081—Process control
-
- 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
- B65G17/00—Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface
- B65G17/12—Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface comprising a series of individual load-carriers fixed, or normally fixed, relative to traction element
- B65G17/123—Conveyors having an endless traction element, e.g. a chain, transmitting movement to a continuous or substantially-continuous load-carrying surface or to a series of individual load-carriers; Endless-chain conveyors in which the chains form the load-carrying surface comprising a series of individual load-carriers fixed, or normally fixed, relative to traction element arranged to keep the load-carriers horizontally during at least a part of the conveyor run
-
- 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
- B65G47/00—Article or material-handling devices associated with conveyors; Methods employing such devices
- B65G47/74—Feeding, transfer, or discharging devices of particular kinds or types
- B65G47/82—Rotary or reciprocating members for direct action on articles or materials, e.g. pushers, rakes, shovels
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B80/00—Architectural or constructional elements improving the thermal performance of buildings
- Y02B80/10—Insulation, e.g. vacuum or aerogel insulation
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Chemical & Material Sciences (AREA)
- Ceramic Engineering (AREA)
- Manufacturing & Machinery (AREA)
- Automation & Control Theory (AREA)
- Drying Of Solid Materials (AREA)
Abstract
A kind of semi-finished product inorganic fire polyphenylene heat insulation slab production equipment, including feed portion, main belt conveyor, slurry conveying device, discharging portion, the feed portion and main belt conveyor, discharging portion is linked in sequence from left to right, slurry conveying device is arranged in the top of main belt conveyor, slurry is provided for main belt conveyor, and by the uniform sprinkle of slurry in the upper surface of polystyrene plates, feed portion one end is provided with automatic plate feeding device, the main belt conveyor bottom is connected with automatic liquid-pumping device, described discharging portion one end is provided with automatic plate taking device.The present invention it is convenient for production it is quick, efficient, can send that plate, production is safer, reduce labor intensity, takes plate to be not easy to fall, high degree of automation automatically, and extra slurries can be recycled, reduce the waste of resource.
Description
Technical field
The present invention relates to inorganic fireproof heat insulating plate production equipment technology more particularly to a kind of semi-finished product inorganic fire are poly-
Benzene equipment for producing heat preservation plate.
Background technology
Polyphenylene heat insulation slab is to be aided with polymer while heating mixing with polystyrene resin, injecting catalyst, then
The hard environmental protection energy-saving type plastic foamboard of extrusion molding extrusion continuity closed-cell foam, inside be independent closed bubble
Structure, be it is a kind of there is high resistance to compression, that water absorption rate is low, moisture-proof, airtight, light, corrosion-resistant, anti-aging, thermal coefficient is low etc. is excellent
It is anisotropic can thermal insulation material, be that current construction industry is common, good heat-insulated, thermal insulation material.
In the prior art, usually all it is that manually raw material are put into production equipment when producing polyphenylene heat insulation slab, it is this
Mode of production efficiency is low, and manpower consumption is larger;And during taking plate from equipment, generally also utilize manually by production
Semi-finished product thermal insulation board is taken away from equipment, and this mode of production efficiency is low, and manpower consumption is larger, and worker is from production equipment
On take thermal insulation board away during, there are security risks;And when producing polyphenylene heat insulation slab, the recycling for slurry
It can be flowed into retracting device by its own gravity of slurry, and the organic efficiency of this mode is relatively low, can not realize automatic
Metaplasia is produced.
Invention content
In view of this, it is necessary to provide it is a kind of it is convenient and efficient, efficient, can send that plate, production are safer, reduce worker automatically
Labor intensity takes plate to be not easy to fall, the semi-finished product inorganic fire polyphenylene heat insulation slab production equipment of high degree of automation.
A kind of semi-finished product inorganic fire polyphenylene heat insulation slab production equipment, including feed portion, main belt conveyor, slurry are defeated
Device, discharging portion, the feed portion is sent to be linked in sequence from left to right with main belt conveyor, discharging portion, slurry conveying device
It is arranged in the top of main belt conveyor, provides slurry for main belt conveyor, and by the uniform sprinkle of slurry in polyphenyl
The upper surface of ethylene plate, feed portion one end are provided with automatic plate feeding device, the main belt conveyor bottom connection
It is provided with automatic liquid-pumping device, described discharging portion one end is provided with automatic plate taking device;
The automatic plate feeding device includes rack, pusher, conveying device, and pusher, conveying device are horizontally set on machine
On frame, pusher is connect by chain with conveying device, pusher by the inorganic fire polyphenylene heat insulation slab of stacking one by one
It is delivered to conveying device, and pusher drives conveying device, so that conveying device is defeated by inorganic fire polyphenylene heat insulation slab one by one
Give main belt conveyor;
The pusher includes the first transmission shaft, second driving shaft, driving motor, two push rods, heat preservation plate bracing frame and protects
Warm plate sorts column, the first transmission shaft, second driving shaft both ends it is corresponding be pivotally connected with rack, the first transmission shaft and second driving shaft
It is mutually parallel, and the first transmission shaft, far from conveying device, second driving shaft is close to conveying device, the first transmission shaft and the second transmission
The both ends of axis are both provided with sprocket wheel, and the sprocket wheel on the sprocket wheel and second driving shaft on the first transmission shaft is connected by chain and passed
It is dynamic;Sprocket wheel on one end of second driving shaft is connect by chain with conveying device;Driving motor is fixed on the rack, and is located at
Below first transmission shaft, the output end of driving motor is connected by the connection sprocket wheel on one end of chain and the first transmission shaft, with
The first transmission shaft is driven to rotate, the first transmission shaft rotated by chain drive second driving shaft, and then is provided for conveying device dynamic
Power;The corresponding chain on the both ends of the first transmission shaft in both ends of two push rods is fixedly connected, and one of push rod is located at
The lower section of another push rod, one of push rod keep the temperature plate bracing frame close to conveying device, another push rod far from conveying device
It is fixed on the rack, and keeps the temperature the length that plate bracing frame width is less than push rod, one of push rod is located in heat preservation plate bracing frame
Side, another push rod are located at below heat preservation plate bracing frame, and the chain-driving push rod on the both ends of the first transmission shaft is pushed to be located at and be protected
Inorganic fire polyphenylene heat insulation slab movement in warm plate bracing frame;Thermal insulation board sorting column is fixed on the rack, and thermal insulation board sorts column
Between second driving shaft and conveying device, thermal insulation board is sorted to have between column and rack and be kept the temperature for one block of inorganic fire polyphenyl
Plate by gap, thermal insulation board sort column height it is corresponding with the height of inorganic fire polyphenylene heat insulation slab of stacking, first pass
When chain-driving push rod on the both ends of moving axis pushes the inorganic fire polyphenylene heat insulation slab movement being stacked in heat preservation plate bracing frame,
Thermal insulation board sorts the inorganic fire polyphenylene heat insulation slab movement that column stop portions stack, so that undermost one block of inorganic fire polyphenyl
Thermal insulation board sorts the gap between column and rack from thermal insulation board and passes through, and reaches in conveying device;Conveying device includes at least two
A roller and two block protection plates being arranged above at least two rollers, at least two rollers are arranged in parallel in rack, and
At least two rollers are higher than the upper surface of rack, and each roller is connected by chain between each other, and close to second driving shaft one
The roller of side is connect with second driving shaft by chain, and then drives the rotation of all rollers, and power is provided for conveying device, two pieces
Protection board is fixed at rack both sides along rack long axis direction is parallel, and two block protection plates are higher than at least two rollers;
The automatic liquid-pumping device includes vacuum pump, vacuum tank, liquid suction pipe, drainage trough, return tank, and vacuum pump connects vacuum tank,
And vacuum pressure is provided for vacuum tank, liquid suction pipe is connected to main belt conveyor bottom, and the other end is connected to vacuum tank, to
The slurry of main belt conveyor sprinkle is introduced in vacuum tank, drainage trough is arranged in vacuum tank bottom part down, and drains
The outlet of one end face vacuum pot bottom of slot, the other end connect return tank, slurry are delivered to return tank, to make again
With;
The vacuum tank includes shell, vacuum tube, feed pipe, discharge nozzle, partition board, communicating pipe and the branch of housing bottom fixed setting
Frame, case top are provided with vacuum tube, and the arrival end connection of vacuum tube and vacuum pump provides vacuum pressure, shell for vacuum tank
Top is provided with feed pipe close to the place of vacuum tube, and feed pipe is connect with liquid suction pipe, will flow into the slurry in liquid suction pipe
It is delivered to vacuum tank, housing bottom is provided with discharge nozzle, and pin joint is provided with discharging tube cover plate on the outlet end of discharge nozzle, in shell
There is one piece of partition board being obliquely installed in portion, and enclosure interior is divided into upper chamber, lower cavity, the shell of partition board low side side
On be provided with batch turning chamber, batch turning chamber is penetrated through with lower cavity, and batch turning intracavitary portion is additionally provided with fuel shuffling tube, fuel shuffling tube one end and top
Cavity is connected to, and one end be connected to batch turning chamber, the slurry in inflow upper chamber to be introduced into lower cavity, fuel shuffling tube and
The end pin joint of the side of batch turning chamber connection is provided with batch turning tube cover plate, and the outside of the high-end side body of partition board, which is additionally provided with, to be used for
The communicating pipe that enclosure interior is connected to outside atmosphere, communicating pipe are connected to upper chamber, lower cavity respectively, the other end and air
Connection is provided with pneumatic operated valve on the communicating pipe, pneumatic operated valve includes the first pneumatic operated valve, the second pneumatic operated valve, and the first pneumatic operated valve is located at
The top for the connecting tube that communicating pipe connect with lower cavity, the second pneumatic operated valve are located at the connecting tube being connect with lower cavity communicating pipe
Lower section;
The automatic plate taking device includes clamping plate mechanism, plate taking-out mechanism, clamp system, sliding track mechanism, and plate taking-out mechanism setting is being pressed from both sides
Trigger structure side, sliding track mechanism are arranged below clamping plate mechanism, and the width of clamping plate mechanism is more than the width of plate taking-out mechanism, and takes
Trigger structure, sliding track mechanism face clamping plate mechanism, so that plate taking-out mechanism can be extend into along sliding track mechanism in clamping plate mechanism, by clamping plate
Thermal insulation board in mechanism takes out, and clamp system is arranged on plate taking-out mechanism;
The clamping plate mechanism includes shell, driving motor, the first transmission shaft, second driving shaft, at least two pairs of clamping plates, shell three
The cube of face opening, shell downside are provided with laser sensor on the inner wall of plate taking-out mechanism, and driving motor is arranged outside
Below shell outer wall, the lower section of the first transmission shaft setting inside the housing, and connected across the output end of shell and driving motor, the
Two transmission shafts are arranged right over the first transmission shaft, and the first transmission shaft is parallel with second driving shaft, second driving shaft and the
One transmission shaft is connected by two chains, and the first transmission shaft, second driving shaft are both provided with close to the both ends of outer casing inner wall and are used for
The sprocket wheel of chain connection, and the sprocket wheel on the sprocket wheel and second driving shaft on the first transmission shaft is connected by chain and is driven, until
Few two pairs of Boards walls are arranged on the chain that the first transmission shaft is connect with second driving shaft, and the first drive link passes through chain-driving
Second drive rod rotation, to drive clamping plate to be rotated along the track of chain movement, to transport thermal insulation board;
The plate taking-out mechanism includes walking dolly, erects fixed frame, plate stem, walking dolly is taken to be moved along sliding track mechanism, so as to take
Trigger structure can extend into clamping plate mechanism, take thermal insulation board embedded on clamping plate away, it is small that setting fixed frame is vertically fixed on walking
Che Shang, and the width for erectting fixed frame is more than the width on the first transmission shaft and second driving shaft between two sprocket wheels, takes plate
Bar is fixedly connected with fixed frame is erect close to the side of clamping plate mechanism is vertical, and plate stem is taken equidistantly to divide along fixed frame long axis direction is erect
It is furnished at least two groups and takes plate stem, and be corresponding in turn to the clamping plate being arranged on chain, every group takes plate stem short along fixed frame is erect
Axis direction is equally spaced three and takes plate stem;
The clamp system includes two motion bars, compresses piece and regulation handle, and two motion bars are arranged in parallel in setting and fix
One side surface of frame, and it is located remotely from the side of clamping plate mechanism, two motion bars are passed through to be fixed at and be erect on fixed frame
Casing so that two motion bars can be up and down along one side surface of fixed frame is erect, and compresses piece and passes through setting fixed frame, and hangs down
Directly be fixed on two motion bars so that by two motion bars can drive compress piece it is up and down, and using compress piece to
Under its own gravity, push down the thermal insulation board fallen on taking plate stem, regulation handle setting passes through to pull and adjust on erectting fixed frame
It is up and down that handle adjusts two motion bars;
The sliding track mechanism includes two tracks, two postive stop baffles, and two tracks are respectively arranged close to one end of the first transmission shaft
There are one postive stop baffles, and two postive stop baffles are respectively positioned on the middle of two tracks, and two postive stop baffles are embedded into two
In at least two card slots being arranged on track, walking dolly is stopped, is embedded into different card slots by adjusting two postive stop baffles
Position, the distance for taking plate stem to stretch into clamping plate mechanism can be adjusted, to enable thermal insulation board to be integrally placed to take on plate stem.
Preferably, adjusting rod is provided with below thermal insulation board sorting column, adjusting rod connects with thermal insulation board sorting column activity
It connects, adjusting rod is provided at both ends with pin hole, and thermal insulation board sorting column both sides leg surface is also equipped with pin hole, is inserted into and is adjusted by axis pin
Bar both ends, thermal insulation board sort in the pin hole of column both sides leg surface, to complete the height adjusting to adjusting rod.
Preferably, the heat preservation plate bracing frame is fixedly installed adjustable stem close to one end of the first transmission shaft, and adjustable stem is logical
The connecting shaft crossed across adjustable stem is connect with heat preservation plate bracing frame, and adjustable stem cooperates with push rod, so that push rod and school
After positive bar contact can face thermal insulation board, and thermal insulation board is pushed into conveying device.
Preferably, the two block protections plate turns down outward close to the end of thermal insulation board sorting column side so that thermal insulation board
Conveying device can be can smoothly enter into.
It is preferably, described that take plate stem include the top plate of support plate and the setting of support plate one end, one end of support plate and setting
Fixed frame is fixedly connected, and other end setting offers the pin hole passed through for axis pin, axis pin there are two axis pin base on two axis pin bases
On be further sleeved with a torsionspring, in the elongated slot that the U-shaped fixed arm insertion of torsionspring is arranged on the supporting plate, torsionspring
Two reverse arms connect with top plate, side end set of the axis pin base far from support plate has a boss, is arranged above boss
There are top plate, top plate to be provided with fixing sleeve corresponding with two reverse arms of torsionspring on a side surface of support plate,
Two reverse arms of torsionspring are each passed through fixing sleeve corresponding thereto and are connect with top plate.
Preferably, the regulation handle passes through the strip-shaped hole corresponding with regulation handle erect and be arranged on fixed frame, and
Vertically fixed setting is there are one positioning pin in regulation handle, and positioning pin is close to clamping plate mechanism side, carries regulation handle, and two
A motion bar is movable upwards, to drive compression piece movable upwards, pushes regulation handle, regulation handle is along setting fixed frame
Strip-shaped hole is moved to clamping plate mechanism side, and positioning pin is passed through to the limit hole erect and be arranged on fixed frame, is compressed with reaching to adjust
The height of piece.
Preferably, at least two pairs of clamping plates include two clamping plates and a connecting rod for fixing two clamping plates, two folders
Plate is separately fixed at both ends of the connecting rod close to chain, and connecting rod is connect with two chain bolts, and clamping plate takes the shape of the letter U structure, and
The opening of clamping plate is more than the thickness of thermal insulation board, to facilitate thermal insulation board to be embedded into clamping plate.
Preferably, the drainage trough is obliquely installed, and is higher than one end far from vacuum tank close to one end of vacuum tank, with
The slurry being discharged from vacuum tank is set to flow rapidly into return tank.
Preferably, the laser sensor is electrically connected with driving motor, and laser sensor transmits the signal detected
To control module, the unlatching or stopping of driving motor are controlled by control module.
The present invention uses above-mentioned technical proposal, advantage to be:The driving motor for the pusher that the present invention is arranged
It drives the first transmission shaft to be rotated with second driving shaft, push rod is made to elapse the thermal insulation board of laminated multi-layer forward, and push dress at this time
The thermal insulation board sorting column being arranged between conveying device is set to intercept the thermal insulation board of laminated multi-layer, and the thermal insulation board of laminated multi-layer is most
One piece of following thermal insulation board, by adjusting the height of adjusting rod, enables thermal insulation board just to wear since push rod continuation elapses forward
The gap below thermal insulation board sorting column is crossed, enters conveying device, and then be transported to feed portion and enter in equipment, it is convenient fast
It is prompt, efficient, solve manually big to the labor intensity of production equipment placement thermal insulation board, the low problem of efficiency;The folder of the present invention
The driving motor of trigger structure drives the rotation of the first transmission shaft, and is rotated by chain-driving second driving shaft, and goes out from discharging portion
The thermal insulation board come is arranged on the clamping plate on chain and clamps, since clamping plate can be moved along the run trace of chain so that heat preservation
Plate is transported to the other side of clamping plate mechanism, and the plate taking-out mechanism of the other side catches clamping plate mechanism and conveys the thermal insulation board to come, clamps
Mechanism pushes down the thermal insulation board taken on plate stem, can prevent thermal insulation board from being fallen in outside conveying;Postive stop baffle, energy are set on track
Enough limitation plate taking-out mechanism extend into the distance of clamping plate mechanism, ensures that plate taking-out mechanism can be integrally placed to take on plate stem;This life
Production mode production efficiency is high, production is safer, reduces labor intensity, and after taking plate to during outer conveying,
Thermal insulation board is also not easy to be fallen on plate stem from taking;The present invention can be by main belt conveyor using the automatic liquid-pumping device of setting
The slurry of sprinkle is evacuated in vacuum tank, and by the first pneumatic operated valve, the second pneumatic operated valve control vacuum tank in upper chamber and under
The pressure of portion's cavity realizes automatic extraction slurries and discharge slurries;Meanwhile automatic liquid-pumping device can make main belt conveyor
It obtains bottom and forms negative pressure, be conducive to slurry and penetrate into thermal insulation board;This mode of production organic efficiency height, high degree of automation, guarantor
Warm plate slurry infiltration is good, improves resource utilization.
Description of the drawings
Fig. 1 is the structural diagram of the present invention.
Fig. 2 is the structural schematic diagram of automatic plate feeding device of the present invention.
Fig. 3 is the structural schematic diagram of another angle of Fig. 2.
Fig. 4 is the structural schematic diagram of automatic liquid-pumping device of the present invention.
Fig. 5 is the sectional view of vacuum tank of the present invention.
Fig. 6 is the structural schematic diagram of the automatic plate taking device of the present invention.
Fig. 7 is the structural schematic diagram of another angle of Fig. 6.
Fig. 8 is the partial enlarged view of Fig. 6.
Fig. 9 is the structural schematic diagram that the present invention takes plate stem.
The structural schematic diagram that Figure 10 tracks of the present invention are connect with postive stop baffle.
In figure:Automatic plate feeding device 10, rack 101, pusher 102, driving motor 1021, the first transmission shaft 1022,
Second driving shaft 1023, heat preservation plate bracing frame 1024, adjustable stem 10241, push rod 1025, thermal insulation board sorting column 1026, adjusting rod
10261, conveying device 103, roller 1031, protection board 1032, feed portion 20, main belt conveyor 30, slurry conveying device
40, discharging portion 50, automatic liquid-pumping device 60, vacuum pump 601, vacuum tank 602, shell 6021, vacuum tube 6022, feed pipe
6023, discharge nozzle 6024, discharging tube cover plate 60241, partition board 6025, communicating pipe 6026, the first pneumatic operated valve 60261, second are pneumatic
Valve 60262, batch turning chamber 6027, fuel shuffling tube 60271, batch turning tube cover plate 602711, holder 6028, liquid suction pipe 603, drainage trough 604,
Return tank 605, automatic plate taking device 70, clamping plate mechanism 701, shell 7011, driving motor 7012, the first rotation axis 7013,
Two rotation axis 7014, plate taking-out mechanism 702, walking dolly 7021, erect fixed frame 7022, limit hole 70221, set at clamping plate 7015
Pipe 70222, take plate stem 7023, top plate 70231,70232, two axis pin bases 70233 of support plate, elongated slot 70234, boss 70235,
Fixing sleeve 70236, clamp system 703, motion bar 7031, compresses piece 7032, regulation handle 7033, positioning at torsionspring 70237
Pin 70331, sliding track mechanism 704, track 7041, postive stop baffle 7042, laser sensor 705.
Specific implementation mode
Fig. 1 to Figure 10 is please referred to, an embodiment of the present invention provides a kind of productions of semi-finished product inorganic fire polyphenylene heat insulation slab to set
It is standby, including feed portion 20, main belt conveyor 30, slurry conveying device 40, discharging portion 50, the feed portion 20 and main belt
Conveying device 30, discharging portion 50 are linked in sequence from left to right, and slurry conveying device 40 is arranged in the upper of main belt conveyor 30
Side, provides slurry, and by the uniform sprinkle of slurry in the upper surface of polystyrene plates, the feed for main belt conveyor 30
20 one end of portion is provided with automatic plate feeding device 10, and 30 bottom of main belt conveyor is connected with automatic liquid-pumping device
60,50 one end of the discharging portion is provided with automatic plate taking device 70;
Fig. 1, Fig. 2, Fig. 3 are please referred to, the automatic plate feeding device 10 includes rack 101, pusher 102, conveying device 103,
Pusher 102, conveying device 103 are horizontally set in rack 101, and pusher 102 is connected by chain and conveying device 103
Connect, pusher 102 by the inorganic fire polyphenylene heat insulation slab of stacking one by one be delivered to conveying device 103, and pusher 102
Conveying device 103 is driven, so that inorganic fire polyphenylene heat insulation slab is conveyed to main belt conveyor by conveying device 103 one by one
30;
The pusher 102 includes 1021, two the first transmission shaft 1022, second driving shaft 1023, driving motor push rods
1025, plate bracing frame 1024 and thermal insulation board are kept the temperature and sorts column 1026, the first transmission shaft 1022, second driving shaft 1023 both ends
Corresponding to be pivotally connected with rack 101, the first transmission shaft 1022 is mutually parallel with second driving shaft 1023, and the first transmission shaft 1022 is remote
From conveying device 103, second driving shaft 1023 is close to conveying device 103, the first transmission shaft 1022 and second driving shaft 1023
Both ends are both provided with sprocket wheel, and the sprocket wheel on the first transmission shaft 1022 is connect with the sprocket wheel on second driving shaft 1023 by chain
Transmission;Sprocket wheel on one end of second driving shaft 1023 is connect by chain with conveying device 103;Driving motor 1021 is fixed on
In rack 101, and positioned at 1022 lower section of the first transmission shaft, the output end of driving motor 1021 passes through chain and the first transmission shaft
Connection sprocket wheel connection on 1022 one end, to drive the rotation of the first transmission shaft 1022, the first transmission shaft 1022 to be driven by chain
Dynamic second driving shaft 1023 rotates, and then provides power for conveying device 103;The both ends of two push rods 1025 are corresponding with first
Chain on the both ends of transmission shaft 1022 is fixedly connected, and one of push rod 1025 is located at the lower section of another push rod 1025,
One of push rod 1025 keeps the temperature plate bracing frame close to conveying device 103, another push rod 1025 far from conveying device 103
1024 are fixed in rack 101, and keep the temperature the length that 1024 width of plate bracing frame is less than push rod 1025, one of push rod 1025
Above heat preservation plate bracing frame 1024, another push rod 1025 is located at 1024 lower section of heat preservation plate bracing frame, the first transmission shaft
Chain-driving push rod 1025 on 1022 both ends pushes the inorganic fire polyphenylene heat insulation slab being located in heat preservation plate bracing frame 1024
It is mobile;Thermal insulation board sorting column 1026 be fixed in rack 101, and thermal insulation board sorting column 1026 be located at second driving shaft 1023 with it is defeated
Between sending device 103, thermal insulation board sort have between column 1026 and rack 101 for one piece of inorganic fire polyphenylene heat insulation slab by
Gap, the height that thermal insulation board sorts column 1026 is corresponding with the height of inorganic fire polyphenylene heat insulation slab of stacking, the first transmission shaft
Chain-driving push rod 1025 on 1022 both ends pushes the inorganic fire polyphenyl heat preservation being stacked in heat preservation plate bracing frame 1024
When plate moves, thermal insulation board sorts the inorganic fire polyphenylene heat insulation slab movement that 1026 stop portions of column stack, so that undermost one
Block inorganic fire polyphenylene heat insulation slab sorts the gap between column 1026 and rack 101 from thermal insulation board and passes through, and reaches conveying device
On 103;
The conveying device 103 includes at least two rollers 1031 and two block protections being arranged above at least two rollers 1031
Plate 1032, at least two rollers 1031 are arranged in parallel in rack 101, and at least two rollers 1031 are higher than rack 101
Upper surface, each roller 1031 are connected by chain between each other, and close to 1023 side of second driving shaft roller 1031 with
Second driving shaft 1023 is connected by chain, and then all rollers 1031 is driven to rotate, and power is provided for conveying device 103, and two
Block protection plate 1032 is fixed at 101 both sides of rack along 101 long axis direction of rack is parallel, and two block protection plates 1032 are higher than
At least two rollers 1031;
Fig. 1, Fig. 4, Fig. 5 are please referred to, the automatic liquid-pumping device 60 includes vacuum pump 601, vacuum tank 602, liquid suction pipe 603, draws
Chute 604, return tank 605, vacuum pump 601 connects vacuum tank 602, and provides vacuum pressure, liquid suction pipe 603 for vacuum tank 602
It is connected to 30 bottom of main belt conveyor, the other end is connected to vacuum tank 602, to by 30 sprinkle of main belt conveyor
Slurry is introduced in vacuum tank 602, and the setting of drainage trough 604 is in 602 bottom part down of vacuum tank, and the one of drainage trough 604 rectifies
Outlet to 602 bottom of vacuum tank, the other end connect return tank 605, slurry are delivered to return tank 605, to make again
With;
The vacuum tank 602 includes shell 6021, vacuum tube 6022, feed pipe 6023, discharge nozzle 6024, partition board 6025, connection
Pipe 6026 and the holder 6028 of 6021 bottom of shell fixed setting, 6021 top of shell are provided with vacuum tube 6022, vacuum tube
6022 connect with the arrival end of vacuum pump 601, provide vacuum pressure for vacuum tank 602,6021 top of shell is close to vacuum tube
6022 place is provided with feed pipe 6023, and feed pipe 6023 is connect with liquid suction pipe 603, will flow into liquid suction pipe 603
Slurry is delivered to vacuum tank 602, and 6021 bottom of shell is provided with discharge nozzle 6024, and pin joint is arranged on the outlet end of discharge nozzle 6024
There are discharging tube cover plate 60241,6021 inside of shell to also have one piece of partition board 6025 being obliquely installed, be by 6021 inside division of shell
Upper chamber, lower cavity are provided with batch turning chamber 6027 on the shell 6021 of 6025 low side side of partition board, and batch turning chamber 6027 is under
Portion's cavity penetrates through, and fuel shuffling tube 60271 is additionally provided with inside batch turning chamber 6027, and 60271 one end of fuel shuffling tube is connected to upper chamber, and one
End be connected to batch turning chamber 6027, to by flow into upper chamber in slurry be introduced into lower cavity, fuel shuffling tube 60271 and
The end pin joint for the side that material chamber 6027 is connected to is provided with batch turning tube cover plate 602711, a 6025 high-end side body 6021 of partition board
Outside is additionally provided with the communicating pipe 6026 being connected to outside atmosphere for the inside of shell 6021, communicating pipe 6026 respectively with upper chambers
Body, lower cavity connection, the other end and atmosphere, are provided with pneumatic operated valve on the communicating pipe 6026, pneumatic operated valve includes first
Pneumatic operated valve 60261, the second pneumatic operated valve 60262, the first pneumatic operated valve 60261 are located at the connection being connect with lower cavity communicating pipe 6026
The top of pipe, the second pneumatic operated valve 60262 are located at the lower section for the connecting tube being connect with lower cavity communicating pipe 6026;
Fig. 1 and Fig. 6 are please referred to Figure 10, the automatic plate taking device 70 includes clamping plate mechanism 701, plate taking-out mechanism 702, clamping machine
Structure 703, sliding track mechanism 704, the setting of plate taking-out mechanism 702 are arranged in 701 side of clamping plate mechanism, sliding track mechanism 704 in clamping plate mechanism
701 lower sections, the width of clamping plate mechanism 701 is more than the width of plate taking-out mechanism 702, and plate taking-out mechanism 702, sliding track mechanism 704 are just
To clamping plate mechanism 701, so that plate taking-out mechanism 702 can be extend into along sliding track mechanism 704 in clamping plate mechanism 701, by clamping plate mechanism
Thermal insulation board on 701 takes out, and clamp system 703 is arranged on plate taking-out mechanism 702;
The clamping plate mechanism 701 includes shell 7011, driving motor 7012, the first rotation axis 7013, the second rotation axis 7014, extremely
Few two pairs of clamping plates 7015, shell 7011 are the cube of open on three sides, and 7011 downside of shell is on the inner wall of plate taking-out mechanism 702
It is provided with laser sensor 705, driving motor 7012 is arranged below 7011 outer wall of shell, and the first rotation axis 7013 is arranged outside
Lower section inside shell 7011, and connect with the output end of driving motor 7012 across shell 7011, the setting of the second rotation axis 7014
Right over the first rotation axis 7013, and the first rotation axis 7013 is parallel with the second rotation axis 7014, the second rotation axis 7014
It is connect by two chains with the first rotation axis 7013, the first rotation axis 7013, the second rotation axis 7014 are in shell 7011
The both ends of wall are both provided with the sprocket wheel connected for chain, and the sprocket wheel in the first rotation axis 7013 and the second rotation axis 7014
On sprocket wheel by chain connect be driven, at least two pairs of clamping plates 7015 are fixed at the first rotation axis 7013 and the second rotation axis
On the chain of 7014 connections, the first rotation axis 7013 is rotated by the second rotation axis of chain-driving 7014, to drive clamping plate
7015 rotate along the track of chain movement, to transport thermal insulation board;
The plate taking-out mechanism 702 includes walking dolly 7021, erects fixed frame 7022, takes plate stem 7023,7021 edge of walking dolly
Sliding track mechanism 704 moves, so that plate taking-out mechanism 702 can extend into clamping plate mechanism 701, takes guarantor embedded on clamping plate 7015 away
Warm plate is erect fixed frame 7022 and is vertically fixed on walking dolly 7021, and the width for erectting fixed frame 7022 is more than first
Width on transmission shaft 1022 and second driving shaft 1023 between two sprocket wheels takes plate stem 7023 and setting fixed frame 7022 close
The side of clamping plate mechanism 701 is vertically fixedly connected, take plate stem 7023 along erect 7022 long axis direction of fixed frame be equally spaced have to
Few two groups take plate stem 7023, and are corresponding in turn to the clamping plate 7015 being arranged on chain, and every group takes plate stem 7023 solid along erectting
Determine 7022 short-axis direction of frame and be equally spaced three to take plate stem 7023;
The clamp system 703 includes two motion bars 7031, compresses piece 7032 and regulation handle 7033, two motion bars 7031
It is arranged in parallel in the side surface for erectting fixed frame 7022, and is located remotely from the side of clamping plate mechanism 701, two motion bars 7031
Across the casing 70222 being fixed on setting fixed frame 7022 so that two motion bars 7031 can be along setting fixed frame
7022 1 side surfaces are up and down, compress piece 7032 and pass through setting fixed frame 7022, and are vertically fixed on two motion bars 7031
On so that can be driven by two motion bars 7031 and compress that piece 7032 is up and down, and using compress piece 7032 it is downward from
Body gravity, pushes down the thermal insulation board fallen on taking plate stem 7023, and the setting of regulation handle 7033 passes through drawing on erectting fixed frame 7022
It is up and down that dynamic regulation handle 7033 adjusts two motion bars 7031;
The sliding track mechanism 704 includes two tracks, 7041, two postive stop baffles 7042, and two tracks 7041 are close to the first transmission
One end of axis 1022 is each provided with a postive stop baffle 7042, and two postive stop baffles 7042 are respectively positioned on two tracks 7041
Middle, two postive stop baffles 7042 are embedded at least two card slots being arranged on two tracks 7041, by walking dolly
7021 blockings, the position of different card slots is embedded by adjusting two postive stop baffles 7042, can adjust and plate stem 7023 is taken to stretch into
The distance of clamping plate mechanism 701, to enable thermal insulation board to be integrally placed to take on plate stem 7023.
Further, the lower section on thermal insulation board sorting column 1026 is provided with adjusting rod 10261, adjusting rod 10261 and guarantor
Warm plate sorting column 1026 is flexibly connected, and adjusting rod 10261 is provided at both ends with pin hole, and thermal insulation board sorts 1026 both sides leg surface of column
It is also equipped with pin hole, 10261 both ends of adjusting rod are inserted by axis pin, thermal insulation board sorts the pin hole of 1026 both sides leg surface of column
In, to complete the height adjusting to adjusting rod 10261.
The lower section on thermal insulation board sorting column 1026 is provided with adjusting rod 10261, and adjusting rod 10261 sorts column 1026 with thermal insulation board
Flexible connection, adjusting rod 10261 are provided at both ends with pin hole, and thermal insulation board sorting 1026 both sides leg surface of column is also equipped with pin hole,
In the pin hole for sorting 1026 both sides leg surface of column by 10261 both ends of axis pin insertion adjusting rod, thermal insulation board, to complete to adjusting
The height of bar 10261 is adjusted, and user can adjust the height of adjusting rod 10261 according to the thickness of thermal insulation board, so that thermal insulation board
It can be just passed through.
Further, the heat preservation plate bracing frame 1024 is fixedly installed adjustable stem close to one end of the first transmission shaft 1022
10241, adjustable stem 10241 is connect by a connecting shaft across adjustable stem 10241 with heat preservation plate bracing frame 1024, adjustable stem
10241 with push rod 1025 cooperate so that push rod 1025 contact with adjustable stem 10241 after can face thermal insulation board, and by guarantor
Warm plate pushes to conveying device 103.
Heat preservation plate bracing frame 1024 is fixedly installed adjustable stem 10241 close to one end of the first transmission shaft 1022, passes through school
Positive bar 10241 and push rod 1025 cooperate, after push rod 1025 can be made to be contacted with adjustable stem 10241 can face thermal insulation board,
It avoids push rod 1025 when contacting the thermal insulation board of laminated multi-layer, is unable to undermost one piece of the thermal insulation board of face laminated multi-layer, into
And stirring accident occurs, slow down speed of production.
Further, the two block protections plate 1032 turns down outward close to the end of thermal insulation board sorting 1026 side of column,
Thermal insulation board is allow to can smoothly enter into conveying device 103.
Further, the top plate for taking plate stem 7023 to be arranged including support plate 70232 and 70232 one end of support plate
70231, one end of support plate 70232 is fixedly connected with fixed frame 7022 is erect, and the other end is arranged there are two axis pin base 70233,
The pin hole passed through for axis pin is offered on two axis pin bases 70233, a torsionspring 70237 is further sleeved on axis pin, is reversed
The U-shaped fixed arm of spring 70237 is embedded in the elongated slot 70234 being arranged in support plate 70232, two of torsionspring 70237
Reverse arm is connect with top plate 70231, and side end set of the axis pin base far from support plate 70232 has a boss 70235, in boss
70235 tops are provided with top plate 70231, and top plate 70231 is provided on a side surface of support plate 70232 and torsionspring
The 70237 corresponding fixing sleeve 70236 of two reverse arms, two reverse arms of torsionspring 70237 are each passed through and its phase
Corresponding fixing sleeve 70236 is connect with top plate 70231.
When support plate 70232 slowly extend into thermal insulation board bottom, since one end of support plate 70232 is provided with top plate
70231, by the drag effects of thermal insulation board, top plate 70231 is squeezed, and shape occurs for the torsionspring 70237 being set on axis pin
Become so that side of the top plate 70231 along pin axially adjacent to support plate 70232 is bent, at this point, the thermal insulation board on clamping plate 7015 is pushed up
It rises, the continuation of support plate 70232 is stretched into forward, and thermal insulation board is slowly detached from clamping plate 7015, and is started to branch along 70231 surface of top plate
It is moved on fagging 70232, after thermal insulation board is dropped down onto completely in support plate 70232, the torsionspring 70237 of deformation starts to restore former
Shape so that 70231 self-return of top plate to the state perpendicular to support plate 70232, and a side end of support plate 70232 is set
The boss 70235 set just roof supporting 70231 prevent top plate 70231 from sliding downwards, and the top plate 70231 of return completely
It can prevent thermal insulation board from being fallen from 70232 front end of support plate, the stopping of walking dolly 7021 travels forward, and releases walking dolly 7021,
Thermal insulation board is removed.
Further, what the regulation handle 7033 was arranged on setting fixed frame 7022 is opposite with regulation handle 7033
The strip-shaped hole answered, and vertically there are one positioning pins 70331 for fixed setting in regulation handle 7033, and positioning pin 70331 is close
701 side of clamping plate mechanism, carries regulation handle 7033, the activity upwards of two motion bars 7031, to drive compress piece 7032 to
Upper activity pushes regulation handle 7033, and regulation handle 7033 is along the strip-shaped hole erect on fixed frame 7022 to clamping plate mechanism 701 1
Side moves, and positioning pin 70331 is passed through to the limit hole 70221 erect and be arranged on fixed frame 7022, and piece is compressed to reach to adjust
7032 height.
Regulation handle 7033 is carried, the activity upwards of two motion bars 7031 compresses the activity upwards of piece 7032 to drive, pushes away
Dynamic regulation handle 7033, regulation handle 7033 are moved along the strip-shaped hole erect on fixed frame 7022 to 701 side of clamping plate mechanism, will
Positioning pin 70331 passes through the limit hole 70221 erect and be arranged on fixed frame 7022, compresses piece 7032 and lifts, by plate taking-out mechanism 702
It stretches into clamping plate mechanism 701, thermal insulation board is fallen on taking plate stem 7023, at this point, pulling regulation handle 7033,7033 edge of regulation handle
The strip-shaped hole erect on fixed frame 7022 move to the side far from clamping plate mechanism 701, by positioning pin 70331 from setting fixed frame
It is extracted out in the limit hole 70221 being arranged on 7022, compresses piece 7032 and fall, push down the thermal insulation board taken on plate stem 7023, Neng Goufang
Only plate taking-out mechanism 702 is when it is pushed outwardly, thermal insulation board is fallen on plate stem 7023 from taking.
Further, at least two pairs of clamping plates 7015 include that two clamping plates 7015 and one fix two clamping plates 7015
Connecting rod, two clamping plates 7015 are separately fixed at both ends of the connecting rod close to chain, and connecting rod is connect with two chain bolts, folder
Plate 7015 takes the shape of the letter U structure, and the opening of clamping plate 7015 is more than the thickness of thermal insulation board, to facilitate thermal insulation board to be embedded into clamping plate 7015
It is interior.
Further, the drainage trough 604 is obliquely installed, and is higher than far from vacuum tank close to one end of vacuum tank 602
602 one end, so that the slurry being discharged from vacuum tank 602 can flow rapidly into return tank 605.
Further, the laser sensor 705 is electrically connected with driving motor 7012, and laser sensor 705 will detect
To signal send control module to, pass through control module control transmission move motor unlatching or stopping.
The working method of the present invention is as follows:When work, the thermal insulation board of laminated multi-layer is placed on heat preservation plate bracing frame 1024
On, be additionally provided with push rod 1025 on two chains that the first transmission shaft 1022 is connect with second driving shaft 1023, push rod 1025 with
Two chains are fixedly connected, and identical as the run trace of two chains, and the driving motor 1021 of pusher 102 passes through chain
The first transmission shaft 1022 is driven to rotate, the first transmission shaft 1022 connect with second driving shaft 1023 by chain, and then drive the
Two transmission shafts 1023 rotate, to enable push rod 1025 continuously to turn along the upper surface and the lower surface of heat preservation plate bracing frame 1024
It is dynamic, when push rod 1025 touches the nethermost one piece of thermal insulation board of thermal insulation board of laminated multi-layer, since driving motor 1021 drives
First transmission shaft 1022 is rotated with second driving shaft 1023, and push rod 1025 is made to elapse the thermal insulation board of laminated multi-layer forward, and this
When pusher 102 and conveying device 103 between the thermal insulation board sorting column 1026 that is arranged the thermal insulation board of laminated multi-layer is intercepted, and
The nethermost one piece of thermal insulation board of thermal insulation board of laminated multi-layer passes through thermal insulation board to sort column since the continuation of push rod 1025 elapses forward
The gap of 1026 lower sections, enters conveying device 103, and second driving shaft 1023 drives 1031 turns of roller in conveying device 103
It is dynamic, thermal insulation board is fed forward, and then be transported to feed portion 20;
Thermal insulation board is entered by feed portion 20, and when reaching main belt conveyor 30, slurry conveying device 40 uniformly drenches slurry
It is sprinkled upon the upper surface of polystyrene plates, when the first pneumatic operated valve 60261 is opened, the second pneumatic operated valve 60262 is closed, at this time vacuum tank
602 upper chambers are connected to lower cavity, all form negative pressure, the batch turning tube cover plate of the outlet end setting of fuel shuffling tube 60271
602711 since upper chamber and lower cavity at this time all form negative pressure state, and pressure is identical so that fuel shuffling tube 60271
The batch turning tube cover plate 602711 of outlet end setting remains able to free activity, and the discharge nozzle lid of the end set of discharge nozzle 6024
Plate 60241 is firmly adsorbed on the end of discharge nozzle 6024, formation sealing is extra since negative pressure is integrally formed in vacuum tank 602
Slurries flow at this time since suction function is integrally formed in vacuum tank 602 from 30 bottom of main belt conveyor along liquid suction pipe 603
In upper cavity inside to vacuum tank 602, lower cavity is then flowed by the fuel shuffling tube 60271 being arranged in batch turning chamber 6027
It is interior;
Work after a certain period of time, the first pneumatic operated valve 60261 close, the second pneumatic operated valve 60262 open, and due to vacuum pump 601 after
The reason of continuous work, the upper chamber of vacuum tank 602 continue to keep vacuum state, be arranged on the outlet end of fuel shuffling tube 60271
Batch turning tube cover plate 602711 form negative pressure due to upper chamber, be firmly adsorbed on the outlet end of fuel shuffling tube 60271, formed close
Envelope, slurries can not be flowed into lower cavity by fuel shuffling tube 60271, and at this time since the second pneumatic operated valve 60262 is opened so that under
Portion's cavity forms normal pressure state, and, the discharging tube cover plate of the end set of discharge nozzle 6024 identical as ambient atmosphere pressure pressure
60241 can not firmly be adsorbed on the end of discharge nozzle 6024 so that slurries can be flowed into drainage along the outlet of discharge nozzle 6024
In slot 604, and finally flow into return tank 605;And thermal insulation board passes through main belt conveyor 30 to reach discharging portion 50;
When thermal insulation board comes out from discharging portion 50, the driving motor 7012 of clamping plate mechanism 701 drives the rotation of the first rotation axis 7013,
First rotation axis 7013 is connect with the second rotation axis 7014 by chain, to drive the rotation of the second rotation axis 7014, and at least
Two clamping plates 7015 are fixedly connected with chain, are conveyed through the thermal insulation board come and are inserted into one by one in clamping plate 7015, and 7015 energy of clamping plate
Enough run trace along chain move, and to which thermal insulation board to be transported to the other side of clamping plate mechanism 701 one by one, work as one pair of which
When clamping plate 7015 clips thermal insulation board and turns to 7011 lower part of shell, since 7011 downside of shell is close to the inner wall of plate taking-out mechanism 702
On be provided with laser sensor 705, at this point, laser sensor 705 detects signal, and send control module to, control module
Sending stop signal to driving motor 7012, driving motor 7012 stops, at this point, automatic plate feeding device 10 is also out of service,
Regulation handle 7033 is carried, the activity upwards of two motion bars 7031 compresses the activity upwards of piece 7032 to drive, pushes and adjust hand
Handle 7033, regulation handle 7033 is moved along the strip-shaped hole erect on fixed frame 7022 to 701 side of clamping plate mechanism, by positioning pin
70331 pass through the limit hole 70221 erect and be arranged on fixed frame 7022, compress piece 7032 and lift, plate taking-out mechanism 702 is along track
7041 push in clamping plate mechanism 701, and plate stem 7023 will be taken to be inserted into thermal insulation board bottom, since one end of support plate 70232 is set
It is equipped with top plate 70231, by the drag effects of thermal insulation board, top plate 70231 is squeezed, the torsionspring being set on axis pin
70237 deform upon so that side of the top plate 70231 along pin axially adjacent to support plate 70232 is bent;
At this point, the thermal insulation board on clamping plate 7015 is jacked up, the continuation of support plate 70232 is stretched into forward, thermal insulation board slowly with clamping plate
7015 are detached from, and start to move in support plate 70232 along 70231 surface of top plate, when thermal insulation board drops down onto support plate 70232 completely
After upper, the torsionspring 70237 of deformation starts to restore to the original state so that 70231 self-return of top plate is to perpendicular to support plate 70232
State, and the top plate 70231 of return completely can prevent thermal insulation board walking dolly 7021 stops from taking 7023 front end of plate stem to fall
It only travels forward, at this point, pulling regulation handle 7033, regulation handle 7033 is along the strip-shaped hole erect on fixed frame 7022 to separate
The side of clamping plate mechanism 701 moves, and positioning pin 70331 is extracted out from the limit hole 70221 being arranged on setting fixed frame 7022,
It compresses piece 7032 to fall, pushes down the thermal insulation board taken on plate stem 7023, plate taking-out mechanism 702 can be prevented when it is pushed outwardly, heat preservation
Plate is fallen on plate stem 7023 from taking, and plate taking-out mechanism 702 is released along track 7041, laser sensor 705 detects signal, and passes
Control module is given, control module sends open signal to driving motor 7012, and driving motor 7012 is opened, at this point, automatically
Plate feeding device 10 works on, and clamping plate mechanism 701 also continues to work.
The above disclosure is only the preferred embodiments of the present invention, cannot limit the right model of the present invention with this certainly
It encloses, those skilled in the art can understand all or part of the processes for realizing the above embodiment, and is wanted according to right of the present invention
Equivalent variations made by asking, still belong to the scope covered by the invention.
Claims (9)
1. a kind of semi-finished product inorganic fire polyphenylene heat insulation slab production equipment, including feed portion, main belt conveyor, slurry conveying
Device, discharging portion, the feed portion are linked in sequence from left to right with main belt conveyor, discharging portion, and slurry conveying device is set
It sets in the top of main belt conveyor, provides slurry for main belt conveyor, and by the uniform sprinkle of slurry in polyphenyl second
The upper surface of alkene plank, it is characterised in that:Feed portion one end is provided with automatic plate feeding device, the main belt conveyor
Bottom is connected with automatic liquid-pumping device, and described discharging portion one end is provided with automatic plate taking device;
The automatic plate feeding device includes rack, pusher, conveying device, and pusher, conveying device are horizontally set on machine
On frame, pusher is connect by chain with conveying device, pusher by the inorganic fire polyphenylene heat insulation slab of stacking one by one
It is delivered to conveying device, and pusher drives conveying device, so that conveying device is defeated by inorganic fire polyphenylene heat insulation slab one by one
Give main belt conveyor;
The pusher includes the first transmission shaft, second driving shaft, driving motor, two push rods, heat preservation plate bracing frame and protects
Warm plate sorts column, the first transmission shaft, second driving shaft both ends it is corresponding be pivotally connected with rack, the first transmission shaft and second driving shaft
It is mutually parallel, and the first transmission shaft, far from conveying device, second driving shaft is close to conveying device, the first transmission shaft and the second transmission
The both ends of axis are both provided with sprocket wheel, and the sprocket wheel on the sprocket wheel and second driving shaft on the first transmission shaft is connected by chain and passed
It is dynamic;Sprocket wheel on one end of second driving shaft is connect by chain with conveying device;Driving motor is fixed on the rack, and is located at
Below first transmission shaft, the output end of driving motor is connected by the connection sprocket wheel on one end of chain and the first transmission shaft, with
The first transmission shaft is driven to rotate, the first transmission shaft rotated by chain drive second driving shaft, and then is provided for conveying device dynamic
Power;The corresponding chain on the both ends of the first transmission shaft in both ends of two push rods is fixedly connected, and one of push rod is located at
The lower section of another push rod, one of push rod keep the temperature plate bracing frame close to conveying device, another push rod far from conveying device
It is fixed on the rack, and keeps the temperature the length that plate bracing frame width is less than push rod, one of push rod is located in heat preservation plate bracing frame
Side, another push rod are located at below heat preservation plate bracing frame, and the chain-driving push rod on the both ends of the first transmission shaft is pushed to be located at and be protected
Inorganic fire polyphenylene heat insulation slab movement in warm plate bracing frame;Thermal insulation board sorting column is fixed on the rack, and thermal insulation board sorts column
Between second driving shaft and conveying device, thermal insulation board is sorted to have between column and rack and be kept the temperature for one block of inorganic fire polyphenyl
Plate by gap, thermal insulation board sort column height it is corresponding with the height of inorganic fire polyphenylene heat insulation slab of stacking, first pass
When chain-driving push rod on the both ends of moving axis pushes the inorganic fire polyphenylene heat insulation slab movement being stacked in heat preservation plate bracing frame,
Thermal insulation board sorts the inorganic fire polyphenylene heat insulation slab movement that column stop portions stack, so that undermost one block of inorganic fire polyphenyl
Thermal insulation board sorts the gap between column and rack from thermal insulation board and passes through, and reaches in conveying device;
The conveying device includes at least two rollers and two block protection plates being arranged above at least two rollers, and at least two
Roller is arranged in parallel in rack, and at least two rollers are higher than the upper surface of rack, and each roller passes through chain between each other
Item connects, and the roller close to second driving shaft side is connect with second driving shaft by chain, and then all rollers is driven to turn
It is dynamic, provide power for conveying device, two block protection plates are fixed at rack both sides, and two pieces along rack long axis direction is parallel
Protection board is higher than at least two rollers;
The automatic liquid-pumping device includes vacuum pump, vacuum tank, liquid suction pipe, drainage trough, return tank, and vacuum pump connects vacuum tank,
And vacuum pressure is provided for vacuum tank, liquid suction pipe is connected to main belt conveyor bottom, and the other end is connected to vacuum tank, to
The slurry of main belt conveyor sprinkle is introduced in vacuum tank, drainage trough is arranged in vacuum tank bottom part down, and drains
The outlet of one end face vacuum pot bottom of slot, the other end connect return tank, slurry are delivered to return tank, to make again
With;
The vacuum tank includes shell, vacuum tube, feed pipe, discharge nozzle, partition board, communicating pipe and the branch of housing bottom fixed setting
Frame, case top are provided with vacuum tube, and the arrival end connection of vacuum tube and vacuum pump provides vacuum pressure, shell for vacuum tank
Top is provided with feed pipe close to the place of vacuum tube, and feed pipe is connect with liquid suction pipe, will flow into the slurry in liquid suction pipe
It is delivered to vacuum tank, housing bottom is provided with discharge nozzle, and pin joint is provided with discharging tube cover plate on the outlet end of discharge nozzle, in shell
There is one piece of partition board being obliquely installed in portion, and enclosure interior is divided into upper chamber, lower cavity, the shell of partition board low side side
On be provided with batch turning chamber, batch turning chamber is penetrated through with lower cavity, and batch turning intracavitary portion is additionally provided with fuel shuffling tube, fuel shuffling tube one end and top
Cavity is connected to, and one end be connected to batch turning chamber, the slurry in inflow upper chamber to be introduced into lower cavity, fuel shuffling tube and
The end pin joint of the side of batch turning chamber connection is provided with batch turning tube cover plate, and the outside of the high-end side body of partition board, which is additionally provided with, to be used for
The communicating pipe that enclosure interior is connected to outside atmosphere, communicating pipe are connected to upper chamber, lower cavity respectively, the other end and air
Connection is provided with pneumatic operated valve on the communicating pipe, pneumatic operated valve includes the first pneumatic operated valve, the second pneumatic operated valve, and the first pneumatic operated valve is located at
The top for the connecting tube that communicating pipe connect with lower cavity, the second pneumatic operated valve are located at the connecting tube being connect with lower cavity communicating pipe
Lower section;
The automatic plate taking device includes clamping plate mechanism, plate taking-out mechanism, clamp system, sliding track mechanism, and plate taking-out mechanism setting is being pressed from both sides
Trigger structure side, sliding track mechanism are arranged below clamping plate mechanism, and the width of clamping plate mechanism is more than the width of plate taking-out mechanism, and takes
Trigger structure, sliding track mechanism face clamping plate mechanism, so that plate taking-out mechanism can be extend into along sliding track mechanism in clamping plate mechanism, by clamping plate
Thermal insulation board in mechanism takes out, and clamp system is arranged on plate taking-out mechanism;
The clamping plate mechanism includes shell, driving motor, the first rotation axis, the second rotation axis, at least two pairs of clamping plates, shell three
The cube of face opening, shell downside are provided with laser sensor on the inner wall of plate taking-out mechanism, and driving motor is arranged outside
Below shell outer wall, the lower section of the first rotation axis setting inside the housing, and connected across the output end of shell and driving motor, the
Two rotation axis are arranged right over the first rotation axis, and the first rotation axis is parallel with the second rotation axis, the second rotation axis and the
One rotation axis is connected by two chains, and the first rotation axis, the second rotation axis are both provided with close to the both ends of outer casing inner wall and are used for
The sprocket wheel of chain connection, and the sprocket wheel in the first rotation axis connect transmission with the sprocket wheel in the second rotation axis by chain, until
Few two pairs of Boards walls are arranged on chain of first rotation axis with the second rotation axis connection, and the first transmission shaft passes through chain-driving
Second rotation axis rotates, to drive clamping plate to be rotated along the track of chain movement, to transport thermal insulation board;
The plate taking-out mechanism includes walking dolly, erects fixed frame, plate stem, walking dolly is taken to be moved along sliding track mechanism, so as to take
Trigger structure can extend into clamping plate mechanism, take thermal insulation board embedded on clamping plate away, it is small that setting fixed frame is vertically fixed on walking
Che Shang, and the width for erectting fixed frame is more than the width in the first transmission shaft and the second rotation axis between two sprocket wheels, takes plate
Bar is fixedly connected with fixed frame is erect close to the side of clamping plate mechanism is vertical, and plate stem is taken equidistantly to divide along fixed frame long axis direction is erect
It is furnished at least two groups and takes plate stem, and be corresponding in turn to the clamping plate being arranged on chain, every group takes plate stem short along fixed frame is erect
Axis direction is equally spaced three and takes plate stem;
The clamp system includes two motion bars, compresses piece and regulation handle, and two motion bars are arranged in parallel in setting and fix
One side surface of frame, and it is located remotely from the side of clamping plate mechanism, two motion bars are passed through to be fixed at and be erect on fixed frame
Casing so that two motion bars can be up and down along one side surface of fixed frame is erect, and compresses piece and passes through setting fixed frame, and hangs down
Directly be fixed on two motion bars so that by two motion bars can drive compress piece it is up and down, and using compress piece to
Under its own gravity, push down the thermal insulation board fallen on taking plate stem, regulation handle setting passes through to pull and adjust on erectting fixed frame
It is up and down that handle adjusts two motion bars;
The sliding track mechanism includes two tracks, two postive stop baffles, and two tracks are respectively arranged close to one end of the first transmission shaft
There are one postive stop baffles, and two postive stop baffles are respectively positioned on the middle of two tracks, and two postive stop baffles are embedded into two
In at least two card slots being arranged on track, walking dolly is stopped, is embedded into different card slots by adjusting two postive stop baffles
Position, the distance for taking plate stem to stretch into clamping plate mechanism can be adjusted, to enable thermal insulation board to be integrally placed to take on plate stem.
2. semi-finished product inorganic fire polyphenylene heat insulation slab production equipment according to claim 1, it is characterised in that:The heat preservation
Adjusting rod is provided with below plate sorting column, adjusting rod is flexibly connected with thermal insulation board sorting column, and adjusting rod is provided at both ends with pin hole,
Thermal insulation board sorting column both sides leg surface is also equipped with pin hole, is inserted into adjusting rod both ends by axis pin, thermal insulation board sorts column both sides
In the pin hole of leg surface, to complete the height adjusting to adjusting rod.
3. semi-finished product inorganic fire polyphenylene heat insulation slab production equipment according to claim 2, it is characterised in that:The heat preservation
Plate bracing frame is fixedly installed adjustable stem close to one end of the first transmission shaft, and adjustable stem passes through a connecting shaft across adjustable stem
Connect with heat preservation plate bracing frame, the mutual cooperation of adjustable stem and push rod so that push rod contacted with adjustable stem after can face thermal insulation board,
And thermal insulation board is pushed into conveying device.
4. semi-finished product inorganic fire polyphenylene heat insulation slab production equipment according to claim 3, it is characterised in that:Described two pieces
The end that protection board sorts column side close to thermal insulation board turns down outward so that thermal insulation board can smoothly enter into conveying device.
5. semi-finished product inorganic fire polyphenylene heat insulation slab production equipment according to claim 4, it is characterised in that:It is described to take plate
Bar includes the top plate of support plate and the setting of support plate one end, and one end of support plate is fixedly connected with fixed frame is erect, and the other end is set
It sets there are two axis pin base, offers the pin hole passed through for axis pin on two axis pin bases, a torsionspring is further sleeved on axis pin,
In the elongated slot that the U-shaped fixed arm insertion of torsionspring is arranged on the supporting plate, two reverse arms of torsionspring are connect with top plate,
Side end set of the axis pin base far from support plate has a boss, top plate is provided with above boss, top plate is close to support plate
Fixing sleeve corresponding with two reverse arms of torsionspring, two reverse arms difference of torsionspring are provided on one side surface
It is connect with top plate across fixing sleeve corresponding thereto.
6. semi-finished product inorganic fire polyphenylene heat insulation slab production equipment according to claim 5, it is characterised in that:The adjusting
Handle passes through the strip-shaped hole corresponding with regulation handle erect and be arranged on fixed frame, and is vertically fixedly installed in regulation handle
One positioning pin, and positioning pin carries regulation handle close to clamping plate mechanism side, and two motion bars are movable upwards, to band
The tight piece of dynamic pressure is movable upwards, and regulation handle, regulation handle is pushed to be transported to clamping plate mechanism side along the strip-shaped hole erect on fixed frame
It is dynamic, positioning pin is passed through to the limit hole erect and be arranged on fixed frame, the height for compressing piece is adjusted to reach.
7. semi-finished product inorganic fire polyphenylene heat insulation slab production equipment according to claim 6, it is characterised in that:It is described at least
Two pairs of clamping plates include two clamping plates and a connecting rod for fixing two clamping plates, and two clamping plates are separately fixed at connecting rod close to chain
The both ends of item, connecting rod are connect with two chain bolts, and clamping plate takes the shape of the letter U structure, and the opening of clamping plate is more than the thickness of thermal insulation board
Degree, to facilitate thermal insulation board to be embedded into clamping plate.
8. semi-finished product inorganic fire polyphenylene heat insulation slab production equipment according to claim 7, it is characterised in that:The drainage
Slot is obliquely installed, and is higher than one end far from vacuum tank close to one end of vacuum tank, so that the slurry energy being discharged from vacuum tank
Enough flow rapidly into return tank.
9. semi-finished product inorganic fire polyphenylene heat insulation slab production equipment according to claim 8, it is characterised in that:The laser
Sensor is electrically connected with driving motor, and laser sensor sends the signal detected to control module, passes through control module
Control the unlatching or stopping of driving motor.
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CN109483722A (en) * | 2018-11-22 | 2019-03-19 | 江苏科技大学 | Roast carbon ring tray production line die turnover apparatus and working method |
CN109794417A (en) * | 2019-02-18 | 2019-05-24 | 顺丰科技有限公司 | Conveying device, piece supplying device and sorting device |
CN109849386A (en) * | 2019-03-28 | 2019-06-07 | 宁夏保利节能科技有限公司 | Composite polyphenylene plate producing process and high-frequency vibration composite polyphenylene plate production system |
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CN112810196A (en) * | 2021-02-05 | 2021-05-18 | 山东刚磊建材科技有限公司 | Inorganic composite polyphenyl A-level insulation board high-pressure adsorption production line |
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CN109483722A (en) * | 2018-11-22 | 2019-03-19 | 江苏科技大学 | Roast carbon ring tray production line die turnover apparatus and working method |
CN109483722B (en) * | 2018-11-22 | 2020-07-14 | 江苏科技大学 | Mold overturning device for barbecue charcoal ring tray production line and working method |
CN109794417A (en) * | 2019-02-18 | 2019-05-24 | 顺丰科技有限公司 | Conveying device, piece supplying device and sorting device |
CN109794417B (en) * | 2019-02-18 | 2024-02-02 | 顺丰科技有限公司 | Conveying device, piece feeding device and sorting equipment |
CN109849386A (en) * | 2019-03-28 | 2019-06-07 | 宁夏保利节能科技有限公司 | Composite polyphenylene plate producing process and high-frequency vibration composite polyphenylene plate production system |
CN109849386B (en) * | 2019-03-28 | 2024-06-18 | 宁夏保利节能科技有限公司 | Composite polystyrene board production method and high-frequency vibration composite polystyrene board production system |
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CN112810196A (en) * | 2021-02-05 | 2021-05-18 | 山东刚磊建材科技有限公司 | Inorganic composite polyphenyl A-level insulation board high-pressure adsorption production line |
CN113911713A (en) * | 2021-12-09 | 2022-01-11 | 烟台大自然园林绿化有限公司 | Loading and unloading device of seedling growth bed |
CN114408500A (en) * | 2022-01-21 | 2022-04-29 | 桂林航天工业学院 | Automatic shell installation device for production and processing of instruments and meters |
CN114408500B (en) * | 2022-01-21 | 2023-09-29 | 桂林航天工业学院 | Automatic shell mounting device for instrument and meter production and processing |
CN114474350A (en) * | 2022-02-23 | 2022-05-13 | 徐州工业职业技术学院 | Insulation board production line and remote monitoring method |
CN114474350B (en) * | 2022-02-23 | 2023-03-31 | 徐州工业职业技术学院 | Insulation board production line and remote monitoring method |
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