CN110539997A - stone plate surface glue drying and transferring device and method - Google Patents
stone plate surface glue drying and transferring device and method Download PDFInfo
- Publication number
- CN110539997A CN110539997A CN201910893396.XA CN201910893396A CN110539997A CN 110539997 A CN110539997 A CN 110539997A CN 201910893396 A CN201910893396 A CN 201910893396A CN 110539997 A CN110539997 A CN 110539997A
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- driving
- stone slab
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- frame
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- 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
- B65G1/00—Storing articles, individually or in orderly arrangement, in warehouses or magazines
- B65G1/02—Storage devices
- B65G1/04—Storage devices mechanical
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Conveying And Assembling Of Building Elements In Situ (AREA)
Abstract
The utility model provides a stone slab face glue dries transfer device and method, transfer device includes the frame, the crane, lift actuating mechanism, conveying mechanism, be provided with the not bearing subassembly of co-altitude of multilayer on the crane, every layer of bearing subassembly includes the relative two riding wheel group that set up in the crane both sides, the riding wheel group includes a plurality of riding wheels of transverse arrangement, two riding wheel group parallel interval mutual disposition are in order to support stone slab bracket, conveying mechanism is including the relative two conveying assembly who sets up in the crane both sides, conveying assembly is including removing the frame, back-and-forth movement mechanism, a plurality of drive wheels and actuating mechanism, actuating mechanism connects and drives a plurality of drive wheel synchronous rotations, work as the movable frame at operating position, the drive wheel can bear in stone slab bracket bottom.
Description
Technical Field
The invention relates to the field of stone slab processing equipment, in particular to equipment for coating surface glue on a stone slab.
Background
In slabstone material processing field, need carry out the rubber coating to slabstone material, and dry after the rubber coating, wherein the rubber coating needs a lot of coatings again, above-mentioned process needs to be accomplished on slabstone material transfer chain, the slabstone material transfer chain is formed by the butt joint of a plurality of slabstone material conveyor, every slabstone material conveyor sets up a process, carry slabstone material through the mode of carrying the slabstone material bracket, slabstone material is placed on the slabstone material bracket, but direct stoving behind the rubber coating is not good to the formation effect of slabstone material face glue, good effect is to dry a period of time earlier after the rubber coating, oven dry again, and present slabstone material rubber coating production line does not dry the process nor has corresponding equipment.
Disclosure of Invention
The invention aims to provide a stone slab surface glue airing and transferring device which can automatically receive a glued stone slab, can stay on the transferring device for naturally airing glue and can automatically output the aired stone slab, aiming at the defects of the prior art.
The purpose of the invention is realized by the following technical scheme:
The utility model provides a slabstone face glue dries transfer device which characterized in that: the device comprises a rack, a lifting frame, a lifting driving mechanism and a conveying mechanism, wherein the lifting frame is arranged on the rack in a lifting and moving manner, the lifting driving mechanism is connected with and drives the lifting frame to move up and down, a plurality of layers of bearing components with different heights are arranged on the lifting frame, each layer of bearing component comprises two bearing wheel groups oppositely arranged on two sides of the lifting frame, each bearing wheel group comprises a plurality of transversely arranged bearing wheels, the two bearing wheel groups are oppositely arranged in parallel at intervals to bear a stone slab bracket, the conveying mechanism comprises two conveying components oppositely arranged on two sides of the lifting frame, each conveying component comprises a movable frame, a front-back moving mechanism, a plurality of driving wheels and a driving mechanism, the movable frame is arranged on the rack in a front-back moving manner, the front-back moving mechanism is connected with and drives the movable frame to move back and forth between a working position and a standby position, when the movable frame is in the working position, the driving wheel can be supported at the bottom of the stone plate bracket.
The back-and-forth movement mechanism comprises a driving shaft, a cylinder, a gear and a rack, the driving shaft is rotatably arranged on the rack, a swing arm is arranged on the driving shaft, the cylinder is connected between the swing arm and the rack and used for driving the swing arm to swing so as to drive the driving shaft to rotate, the gear is arranged on the driving shaft, and the rack is arranged on the movable frame and meshed with the gear.
The movable frame is arranged on the frame in a manner of moving back and forth through the guide rod.
The driving mechanism comprises a driving motor and a transmission shaft, the transmission shaft is rotatably arranged on the movable frame, the driving motor drives the transmission shaft to rotate through a speed reducer, a first helical gear is arranged on a wheel shaft of each driving wheel, and a plurality of second helical gears meshed with the first helical gears are arranged on the transmission shaft.
the lift drive mechanism includes elevator motor, the synchronizing shaft, two cochain shaft, two lower sprocket shafts, four last sprockets, four lower sprockets and four chains, two cochain shaft parallel interval sets up at the frame top, two lower sprocket shafts and two cochain shaft parallel relative settings are in the frame bottom, four last sprockets set up the both ends at two cochain shaft, four lower sprockets set up the both ends at two lower sprocket shafts, four chain tensioning are at four last sprockets and four lower sprockets between and are connected the crane, elevator motor passes through retarder connection drive synchronizing shaft and rotates, the synchronizing shaft both ends are passed through conical gear and two cochain shaft transmission and are connected.
And two input guide wheels with the same height as the driving wheels are arranged on one side of the rack, and two output guide wheels with the same height as the driving wheels are arranged on the other side of the rack.
The stone slab surface glue airing and transferring method is characterized by comprising the following steps: transferring the stone plate coated with the surface glue and the stone plate bracket to a lifting frame for drying, and transferring the dried stone plate communicated with the stone plate bracket out of the lifting frame;
The method specifically comprises the following steps: when the lifting frame needs to receive the stone slab bracket, the lifting frame moves up and down to enable the riding wheel without the stone slab bracket to be lower than the driving wheel, the driving wheel moves to a working position, the stone slab bracket moves to a position which can be supported by the driving wheel, the driving wheel rotates to move the stone slab bracket to the middle of the lifting frame and to be located above the riding wheel, then the lifting frame rises to enable the stone slab bracket on the driving wheel to be transferred to be supported by the riding wheel, and finally the driving wheel moves to a standby position;
When the lifting frame needs to output the stone slab bracket, the lifting frame moves up and down to enable the supporting wheel for placing the stone slab bracket to be higher than the driving wheel, the driving wheel moves to the working position, then the lifting frame descends to enable the stone slab bracket on the supporting wheel to be transferred to the driven wheel to be supported, and the driving wheel rotates to enable the stone slab bracket to move forwards for outputting.
The invention has the following beneficial effects:
Conveying mechanism can receive the slabstone material bracket, and transfer the slabstone material bracket to the crane on, perhaps, transfer the slabstone material bracket on the crane to other slabstone material conveyor, set up multilayer bearing subassembly on the crane, every layer of bearing subassembly can be used to bearing slabstone material bracket, the slabstone material after the coating face is glued is placed on the slabstone material bracket, and transfer to the crane along with the slabstone material bracket and dry, the slabstone material after the face that dries glues is exported to other slabstone material conveyor along with the slabstone material bracket.
Conveying mechanism is including setting up two conveying component in the crane both sides relatively, but conveying component has back-and-forth movement and rotatable a plurality of drive wheels, and the drive wheel can move to the bearing and remove in stone slab material bracket bottom and rotation in order to drive stone slab material bracket, and the lift through the crane removes and to make the stone slab material bracket on the drive wheel fall on the bearing component or shift the stone slab material bracket on the bearing component to the transfer of realization stone slab material bracket on the drive wheel.
Drawings
the present invention will be described in further detail with reference to the accompanying drawings.
FIG. 1 is a schematic structural diagram of the present invention.
fig. 2 is a schematic structural diagram of the lifting frame.
fig. 3 is a schematic structural diagram of the conveying mechanism.
Detailed Description
Referring to fig. 1, 2 and 3, a stone slab surface glue airing and transferring device comprises a rack 1, a lifting frame 2, a lifting driving mechanism and a conveying mechanism.
The rack 1 comprises an upper frame 15, a lower frame 16 and four upright posts 11, wherein the upper frame 15 and the lower frame 16 are both rectangular frame structures, and the four upright posts 11 are connected between four corners of the upper frame 15 and the lower frame 16.
The elevating system comprises a frame 1, an elevating driving mechanism 2, a lifting driving mechanism, a plurality of supporting components, a plurality of supporting wheels 22, supporting stone plate material brackets 6, and a plurality of vertical rods 21, wherein the lifting frame 2 is arranged on the frame 1 in an elevating mode, the lifting driving mechanism is connected with and drives the lifting frame 2 to move up and down, the lifting frame 2 is provided with a plurality of layers of supporting components with different heights, each layer of supporting component comprises two supporting wheel groups which are arranged on two sides of the lifting frame 2 relatively, the supporting wheel groups comprise a plurality of supporting wheels 22 which are transversely arranged, the two supporting wheel groups.
The lifting driving mechanism comprises a lifting motor 31, a synchronizing shaft 32, two upper chain wheel shafts 33, two lower chain wheel shafts 35, four upper chain wheels 34, four lower chain wheels 36 and four chains 37, the two upper chain wheel shafts 33 are parallelly and alternately arranged at the top of the rack 1, the two lower chain wheel shafts 35 and the two upper chain wheel shafts 33 are parallelly and oppositely arranged at the bottom of the rack 1, the four upper chain wheels 34 are arranged at two ends of the two upper chain wheel shafts 33, the four lower chain wheels 36 are arranged at two ends of the two lower chain wheel shafts 35, the four chains 37 are tensioned between the four upper chain wheels 34 and the four lower chain wheels 36 and connected with the lifting frame 2, the lifting motor 31 drives the synchronizing shaft 32 to rotate through a speed reducer connection, two ends of the synchronizing shaft 32 are in transmission connection with the two upper chain wheel shafts 33 through conical gears, the two upper chain wheel shafts 33 are driven to synchronously rotate, and finally.
The conveying mechanism comprises two conveying assemblies which are oppositely arranged on two sides of the lifting frame 2, each conveying assembly comprises a moving frame 41, a front-back moving mechanism, a plurality of driving wheels 46 and a driving mechanism, the moving frame 41 is arranged between the two vertical columns 11 of the rack 1 in a front-back moving mode through a guide rod 42, the front-back moving mechanism is connected with and drives the moving frame 41 to move back and forth between a working position and a standby position, the driving wheels 46 are transversely arranged on the moving frame 41 at intervals, the driving mechanism is connected with and drives the driving wheels 46 to synchronously rotate, and when the moving frame 41 is at the working position, the driving wheels 46 can be supported at the bottom of the stone slab bracket 6; the front-back moving mechanism comprises a cross beam 14, a driving shaft 51, an air cylinder 54, a gear 52 and a rack 53, wherein the cross beam 14 is arranged between the two upright posts 11 of the machine frame 1, the driving shaft 51 is rotatably arranged on the cross beam 14, a swing arm 56 is arranged on the driving shaft 51, the air cylinder 54 is connected between the swing arm 56 and the machine frame 54 and is used for driving the swing arm 56 to swing so as to drive the driving shaft 51 to rotate, the gear 52 is arranged on the driving shaft 51, the rack 53 is arranged on the moving frame 41 and is meshed with the gear 52, and when the gear 52 rotates along with the driving shaft 51, the gear 52 is meshed with the rack.
The driving mechanism comprises a driving motor 43 and a transmission shaft 44, the transmission shaft 44 is rotatably disposed on the moving frame 41, the driving motor 43 drives the transmission shaft 44 to rotate through a speed reducer, a first bevel gear 451 is disposed on a wheel shaft 45 of each driving wheel 46, and a plurality of second bevel gears 441 engaged with the first bevel gears 451 are disposed on the transmission shaft 44, so as to drive the plurality of driving wheels 46 to rotate synchronously.
Two input guide wheels 121 with the same height as the driving wheel 46 are arranged on one side of the frame 1, two output guide wheels 131 with the same height as the driving wheel 46 are arranged on the other side of the frame 1, and the two input guide wheels 121 are arranged between the two opposite vertical columns 11 through an input wheel carrier 12; the two output guide wheels 131 are arranged between the other two opposite upright posts 11 through the output wheel carrier 13.
The specific working mode is as follows: when the stone slab bracket 6 needs to be received, the lifting frame 2 moves up and down to enable the supporting wheel 22 without the stone slab bracket 6 to be lower than the driving wheel 46, the driving wheel 46 moves to a working position along with the moving frame 41, the stone slabs 7 on the stone slab bracket 6 are coated with surface glue and then are output by other stone slab conveying devices and guided by the two input guide wheels 121 to move to a position which can be supported by the driving wheel 46, the driving wheel 46 rotates to enable the stone slab bracket 6 to move to the middle of the lifting frame and be located above the supporting wheel 22, then the lifting frame 2 rises to enable the stone slab bracket 6 on the driving wheel 46 to be transferred to be supported by the supporting wheel 22, and finally the driving wheel 46 moves to a standby position along;
when the glue on the stone slab dries and needs output stone slab bracket 6, 2 lifting movements of crane make the riding wheel 22 of placing stone slab bracket 6 be higher than drive wheel 46, and drive wheel 46 moves to the operating position along with removing frame 41, then crane 2 descends and makes stone slab bracket 6 on riding wheel 22 shift to being supported by drive wheel 46, and drive wheel 46 rotates and makes stone slab bracket 6 move forward and through two output guide wheels 131 guide removal to other stone slab conveyor.
The above description is only a preferred embodiment of the present invention, and therefore should not be taken as limiting the scope of the invention, which is defined by the appended claims and their equivalents and modifications within the scope of the description.
Claims (7)
1. The utility model provides a slabstone face glue dries transfer device which characterized in that: the device comprises a rack, a lifting frame, a lifting driving mechanism and a conveying mechanism, wherein the lifting frame is arranged on the rack in a lifting and moving manner, the lifting driving mechanism is connected with and drives the lifting frame to move up and down, a plurality of layers of bearing components with different heights are arranged on the lifting frame, each layer of bearing component comprises two bearing wheel groups oppositely arranged on two sides of the lifting frame, each bearing wheel group comprises a plurality of transversely arranged bearing wheels, the two bearing wheel groups are oppositely arranged in parallel at intervals to bear a stone slab bracket, the conveying mechanism comprises two conveying components oppositely arranged on two sides of the lifting frame, each conveying component comprises a movable frame, a front-back moving mechanism, a plurality of driving wheels and a driving mechanism, the movable frame is arranged on the rack in a front-back moving manner, the front-back moving mechanism is connected with and drives the movable frame to move back and forth between a working position and a standby position, when the movable frame is in the working position, the driving wheel can be supported at the bottom of the stone plate bracket.
2. The stone slab surface glue airing and transferring device as claimed in claim 1, wherein: the back-and-forth movement mechanism comprises a driving shaft, a cylinder, a gear and a rack, the driving shaft is rotatably arranged on the rack, a swing arm is arranged on the driving shaft, the cylinder is connected between the swing arm and the rack and used for driving the swing arm to swing so as to drive the driving shaft to rotate, the gear is arranged on the driving shaft, and the rack is arranged on the movable frame and meshed with the gear.
3. The stone slab surface glue airing and transferring device as claimed in claim 1, wherein: the movable frame is arranged on the frame in a manner of moving back and forth through the guide rod.
4. The stone slab surface glue airing and transferring device as claimed in claim 1, wherein: the driving mechanism comprises a driving motor and a transmission shaft, the transmission shaft is rotatably arranged on the movable frame, the driving motor drives the transmission shaft to rotate through a speed reducer, a first helical gear is arranged on a wheel shaft of each driving wheel, and a plurality of second helical gears meshed with the first helical gears are arranged on the transmission shaft.
5. The stone slab surface glue airing and transferring device as claimed in claim 1, wherein: the lift drive mechanism includes elevator motor, the synchronizing shaft, two cochain shaft, two lower sprocket shafts, four last sprockets, four lower sprockets and four chains, two cochain shaft parallel interval sets up at the frame top, two lower sprocket shafts and two cochain shaft parallel relative settings are in the frame bottom, four last sprockets set up the both ends at two cochain shaft, four lower sprockets set up the both ends at two lower sprocket shafts, four chain tensioning are at four last sprockets and four lower sprockets between and are connected the crane, elevator motor passes through retarder connection drive synchronizing shaft and rotates, the synchronizing shaft both ends are passed through conical gear and two cochain shaft transmission and are connected.
6. The stone slab surface glue airing and transferring device as claimed in claim 1, wherein: and two input guide wheels with the same height as the driving wheels are arranged on one side of the rack, and two output guide wheels with the same height as the driving wheels are arranged on the other side of the rack.
7. The stone slab surface glue airing and transferring method is characterized by comprising the following steps: transferring the stone plate coated with the surface glue and the stone plate bracket to a lifting frame for drying, and transferring the dried stone plate communicated with the stone plate bracket out of the lifting frame;
The method specifically comprises the following steps: when the lifting frame needs to receive the stone slab bracket, the lifting frame moves up and down to enable the riding wheel without the stone slab bracket to be lower than the driving wheel, the driving wheel moves to a working position, the stone slab bracket moves to a position which can be supported by the driving wheel, the driving wheel rotates to move the stone slab bracket to the middle of the lifting frame and to be located above the riding wheel, then the lifting frame rises to enable the stone slab bracket on the driving wheel to be transferred to be supported by the riding wheel, and finally the driving wheel moves to a standby position;
When the lifting frame needs to output the stone slab bracket, the lifting frame moves up and down to enable the supporting wheel for placing the stone slab bracket to be higher than the driving wheel, the driving wheel moves to the working position, then the lifting frame descends to enable the stone slab bracket on the supporting wheel to be transferred to the driven wheel to be supported, and the driving wheel rotates to enable the stone slab bracket to move forwards for outputting.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910893396.XA CN110539997A (en) | 2019-09-20 | 2019-09-20 | stone plate surface glue drying and transferring device and method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910893396.XA CN110539997A (en) | 2019-09-20 | 2019-09-20 | stone plate surface glue drying and transferring device and method |
Publications (1)
Publication Number | Publication Date |
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CN110539997A true CN110539997A (en) | 2019-12-06 |
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ID=68714108
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Application Number | Title | Priority Date | Filing Date |
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CN201910893396.XA Pending CN110539997A (en) | 2019-09-20 | 2019-09-20 | stone plate surface glue drying and transferring device and method |
Country Status (1)
Country | Link |
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CN (1) | CN110539997A (en) |
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2019
- 2019-09-20 CN CN201910893396.XA patent/CN110539997A/en active Pending
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