CN207698638U - Upper and lower transporter - Google Patents

Upper and lower transporter Download PDF

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Publication number
CN207698638U
CN207698638U CN201721873160.2U CN201721873160U CN207698638U CN 207698638 U CN207698638 U CN 207698638U CN 201721873160 U CN201721873160 U CN 201721873160U CN 207698638 U CN207698638 U CN 207698638U
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CN
China
Prior art keywords
lifting
transporter
rack
space
limited block
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CN201721873160.2U
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Chinese (zh)
Inventor
张金林
阮伟杰
昝学彦
李家钧
李飞军
邓瑶
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Zhuzhou Makerwit Technology Co Ltd
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Zhuzhou Makerwit Technology Co Ltd
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Priority to CN201721873160.2U priority Critical patent/CN207698638U/en
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Abstract

The transporter up and down that utility model provides includes rack, the lifting gear and translating device that are arranged in rack;Rack includes the first lifting space being laterally set up in parallel and the second lifting space, is respectively provided with there are one lifting gear in the first lifting space and the second lifting space, translating device extends between the top in the first lifting space and the top in the second lifting space;Rack is respectively provided with integral finish on front side of the front side and the second lifting space in the first lifting space;Lifting gear includes screw component and the lifting platform on screw component, and lifting platform includes two support bases positioned at lifting platform both lateral sides, has interval between two support bases and is formed and be inserted into position, is inserted into plane to integral finish.Transporter up and down provided by the utility model is suitble to shift various materials, and transporter useful load is big up and down, and the workload of material transportation robot greatly reduces, and working efficiency effectively improves.

Description

Upper and lower transporter
Technical field
The utility model is related to logistics transportation apparatus fields, more particularly to a kind of transporter up and down.
Background technology
A kind of existing transporter up and down is taken out and is shifted from carrier to sheet material or plank using negative pressure sucker, should Transporter includes rack and the lifting gear and translating device that are arranged in rack kind up and down, and feed zone arranged side by side is arranged in rack Domain and the region that discharges are provided with conveyer belt in feed zone, discharging region is provided with material placing rack, and lifting gear is with liter The negative pressure sucker component of drop ability, translating device include the sliding rail being fixed on the rack and the sliding block that is slidably matched with sliding rail, are born Pressure Suction cup assembly is fixedly connected on sliding block.
When the carrier for loading sheet material and after be transported on conveyer belt, negative pressure sucker component, which declines, simultaneously adsorbs sheet material, Subsequent lifting gear and translating device start work, and negative pressure sucker component is made to move to the top in discharging region, last sheet material Or plank will be placed on material placing rack, to complete material transfer.
Transporter about this existing kind the problem is that, about this kind transporter per task be only capable of to plank carry out It transfers, the multiple carriers for being mounted with plank can not be existed simultaneously on conveyer belt, the conveyer belt for not having elevating function cannot achieve The transfer of unloaded carrier, if multiple carriers of lamination are sent into feed zone, multiple carriers of lamination will be led because that can not be transferred Cause the plank on other carriers outside top layer carrier that can not be transferred.The scope of application of transporter is more narrow about this kind, Working efficiency is also more low.
Utility model content
The purpose of this utility model is to provide a kind of strong applicability and the transporters up and down that work efficiency is high.
Transporter up and down provided by the utility model includes rack, the lifting gear and translating device that are arranged in rack; Rack includes the first lifting space being laterally set up in parallel and the second lifting space, and the first lifting space and second lifts in space Be respectively provided with there are one lifting gear, translating device extend the top in the first lifting space and the second lifting space top it Between;Rack is respectively provided with integral finish on front side of the front side and the second lifting space in the first lifting space;Lifting gear includes silk Bar assembly and the lifting platform on screw component, lifting platform include two support bases positioned at lifting platform both lateral sides, and two There is interval between a support base and formed and be inserted into position, be inserted into plane to integral finish.
By said program as it can be seen that between two lifting gears are connected to translating device, the first lifting space is used for for carrier Into the second lifting space is used for for recycling carrier;Scaling platform of multiple carriers through AGV robots of stacking is from integral finish It into the first lifting space and is placed on lifting platform, is inserted into the scaling platform that position is used to accommodate AGV robots.Translating device will Carrier transports one by one, after the material in carrier is removed on translating device, carrier from second lifting space lifting gear toward Lower transport.Until stack of carriers to be recycled arrives certain amount in the second lifting space, the scaling platform insertion of AGV robots the In the insertion position in two lifting spaces and recycle multiple carriers.It is provided by the utility model up and down transporter be suitble to various materials into Row transfer, and transporter useful load is big up and down, the workload of AGV robots greatly reduces, and working efficiency effectively improves.
Further embodiment is that lifting platform further includes the first limited block being mounted on support base, and the first limited block is located at The lateral outer side of support base, and in vertical direction, the upper surface of the first limited block is higher than the upper surface of support base.
Further scheme is that lifting platform further includes the second limited block being mounted on support base, the second limited block position In the rear side far from integral finish on support base, in vertical direction, the upper surface of the second limited block is higher than the upper table of support base Face.
Therefore first limited block carrier is limited in both lateral sides, the second limited block front-rear direction to carry Body is limited, it is ensured that position accuracy of the carrier on lifting platform, to ensure the crawl accuracy of following translating device.
Further embodiment is that the first elongate slots are provided on the first limited block, and bolt is locked at across the first elongate slots On support base, the first elongate slots are laterally extended along lifting gear;The second elongate slots are provided on second limited block, bolt is worn It crosses the second elongate slots to be locked on support base, the second elongate slots extend along the opening direction of integral finish.
Therefore adjustable first limited block and the second limited block make upper and lower transporter to various sizes of carrier Also it can guarantee position accuracy when being transported, ensure the crawl accuracy of following translating device.
Further embodiment is that lifting platform further includes transverse slat, and screw component includes being arranged in lifting gear both lateral sides Two vertical lead screws, transverse slat are threaded between two vertical lead screws of same lifting gear;Two of same lifting gear Support base is each attached on transverse slat.
Therefore be relatively fixed between two support bases of transverse slat both sides, it can guarantee the stability of carrier transport.
Further embodiment is that the upper end of support base is elongated support bar, opening direction of the support bar along integral finish Extend;First limited block and the second limited block are installed on support bar.
Further embodiment is, rack sets that there are four elastic supporting mechanism, four elasticity on the top in the first lifting space Supporting mechanism is symmetricly set on the both lateral sides in the first lifting space;Elastic supporting mechanism includes mounting base and swing component, installation Seat is fixed on the rack, and swing component swing is connected in mounting base, and the swing of swing component is limited by mounting base, swing component and peace It is connected with elastic component between dress seat;Swing component includes supporting surface and guiding surface, and the angle between guiding surface and supporting surface is small In 90 degree;When mounting base limits swing component, supporting surface is located at horizontality, guiding surface downward, and multiple resilient support machines The supporting surface of structure is located in the same horizontal position.
Therefore when at material carrier arrival elastic supporting mechanism, carrier is oblique with guiding in the first lifting space Face contacts and swing component is pushed to swing, and after carrier is by swing component, swing component resets, and one or more carriers can be then supported On the support surface.
Further embodiment is that translating device includes horizontal rail and crawl arm, and horizontal rail is horizontally set in rack, Crawl arm is slidably matched with horizontal rail, and crawl arm moves between the first lifting space and the second lifting space.
Further scheme is, crawl arm includes connector, two horizontal air cylinders and two arms, connector with it is horizontal Track is slidably matched, and two horizontal air cylinders are relatively mounted on the both lateral sides of connector, and two arms are separately mounted to one The output end of horizontal air cylinder, two arms are oppositely arranged;The extending direction of two arms is each perpendicular to the extension side of horizontal rail To.
Therefore arm can be gripped and be supported to carrier under the control of horizontal air cylinder, to realize single load The sideways transfer of body.
Further embodiment is that arm is equipped with third elongate slots, and bolt is locked at horizontal gas after passing through third elongate slots On the output end of cylinder, the extending direction of third elongate slots is identical as the extending direction of arm.
Therefore the extension elongation of arm can carry out micro adjustment, to adapt to have various sizes of various materials to carry Body.
Description of the drawings
Fig. 1 is the structure chart of material transportation robot in the utility model material transport system embodiment.
Fig. 2 is the structure chart at another visual angle of material transportation robot in the utility model material transport system embodiment.
Fig. 3 is the structure of another working condition of material transportation robot in the utility model material transport system embodiment Figure.
Fig. 4 is the structure chart of the utility model or more transporter first embodiment.
Fig. 5 is the enlarged drawing at A in Fig. 4.
Fig. 6 is the structure chart of the utility model or more transporter second embodiment.
Fig. 7 is the structure chart at the utility model or more another visual angle of transporter second embodiment.
Fig. 8 is the enlarged drawing at B in Fig. 7.
Fig. 9 is the schematic diagram of the first working condition of the utility model material transportation embodiment of the method.
Figure 10 is the schematic diagram of the second working condition of the utility model material transportation embodiment of the method.
Specific implementation mode
Material transport system embodiment
Referring to Fig. 1, Fig. 4 and Fig. 6, Fig. 1 is the structure chart of material transportation robot in material transport system, and Fig. 4 is material The structure chart of transporter first embodiment, Fig. 6 are that transporter second is implemented up and down in material transport system up and down in transportation system The structure chart of example.Material transport system is by material transportation robot 1 and upper and lower transporter 2 or 3 mutual cooperation group of upper and lower transporter At.
In conjunction with Fig. 1, Fig. 2 and Fig. 3, Fig. 2 and Fig. 3 are the structure chart of 1 different visual angles of material transportation robot.Material transportation Robot 1 includes main body 11 and the carrying roller group 134 and drive wheel group 130 in 11 bottom of main body is arranged, and drive wheel group 130 includes It is rotatably connected on the turntable 131 of 11 bottom of main body and two driving wheels independently driven by motor 133 is set on turntable 131 132.Main body 11 includes pedestal 111, is erected at the two side walls 113 of 111 both lateral sides of pedestal and is connected to two side walls 113 Roof 115 between top has interval between two side walls 113 and forms the placement position for placing material carrier.Material Transportation robot 1 further includes four supporting rods 114 being erected on the angle of upper surface 112 4 of pedestal 111, and side wall 113 is in thin Plate, each side wall 113 are fixedly connected with two supporting rods 114, and are connected between supporting rod 114 and the upper surface 112 of pedestal 111 Triangular shape ribs 151 is connected to ensure mechanical strength.
Material transportation robot 1 further includes telescopic platform component 12, between telescopic platform component 12 is between two side walls 113 In;Telescopic platform component 12 includes the first sliding rail 121, the first slide unit 122, the second sliding rail 123 and the second slide unit 124;First slides Rail 121 is horizontally fixed on the upper surface 112 of pedestal 111, and the first slide unit 122 is slidably matched with the first sliding rail 121, the second sliding rail 123 are fixed on the first slide unit 122, and the second slide unit 124 is slidably matched with the second sliding rail 123, the first sliding rail 121 and second Sliding rail 123 is mutually parallel.Material transportation robot 1 is equipped with the first conveyer belt component 128, the first conveyer belt group on pedestal 111 The transmission direction of part 128 is parallel with the extending direction of the first sliding rail 121, and the first slide unit 122 is connected to the first conveyer belt component 128 The first conveyer belt on.First slide unit 122 is equipped with the second conveyer belt component 129, the transmission direction of the second conveyer belt component 129 Parallel with the extending direction of the second sliding rail 123, the second slide unit 124 is connected on the second conveyer belt of the second conveyer belt component 129.
Front limit mechanism and rear position-limit mechanism, front limit mechanism and rear limit are provided on the upper surface of second slide unit 124 Mechanism is relatively separately fixed at the front-end and back-end of 124 glide direction of the second slide unit.Front limit mechanism is limited block 141, limit The upper surface of position 141 the second slide unit of high pressure 124 of block, rear position-limit mechanism is the limit stock 142 being erected on the second slide unit 124, The ribs of multiple triangular shapes is connected between limit stock 142 and the upper surface 112 of pedestal 111, two ribs 152 connect In the both lateral sides of limit stock 142, a ribs 153 is arranged back to limited block 141.It is also associated on limit stock 142 A piece adjusting stock 143 adjusts stock 143 and is parallel to the limit setting of stock 142, and adjusting bolt connects with limit 142 screw thread of stock It connects, adjusting bolt is rotatablely connected after passing through the screw hole for limiting stock 142 with adjusting stock 143.Adjusting bolt is horizontally disposed and vertical Directly with limit stock 142, therefore twists adjusting bolt and can be realized and adjust stock 143 and adjusted with limit the distance between stock 142 Section, and then control limited block 141 and adjust the spacing between stock 143, so that the second slide unit 124 is suitable for different a variety of of length The material carrier of model.
Material carrier is placed on the second slide unit 124, is carrying out transporter 2 up and down or up and down transporter 3 and material transportation When the material carrier handing-over of robot 1, the second slide unit 124 is whole stretch out in main body 11 it is outer and enter transporter 2 up and down or on The handing-over of material carrier can be completed in lower transporter 3.Since material transportation robot has side wall 113 and pedestal 111, even if the The width that the width of two slide units 124 is equal to or less than material carrier also can guarantee the stability of transport, while material can be made to transport Defeated robot and upper and lower transporter all have smaller volume, optimization production site arrangement.
Upper and lower transporter first embodiment
Referring to Fig. 4 and Fig. 5, Fig. 4 is the structure chart of upper and lower transporter first embodiment, and Fig. 5 is the enlarged drawing at A in Fig. 4. Upper and lower transporter 2 includes rack 21, two lifting gears 22 being arranged in rack 21 and translating device 23;Rack 21 includes cross Space 202 is lifted to the first lifting space 201 and second being set up in parallel, the first lifting space 201 and second lifts space 202 In be respectively provided with there are one lifting gear 22, translating device 23 extends the top and the second lifting space in the first lifting space 201 Between 202 top;Rack 21 is respectively set whole in the front side in the first lifting space 201 and the front side in the second lifting space 202 Body opening 203 and integral finish 204.
Lifting gear 22 includes screw component and the lifting platform 221 on screw component, and screw component includes driving Device and the first lifting space 201 or second that is oppositely arranged on for being connected to driving device output end lift space 202 lateral two Two vertical lead screws 220 of side, lifting platform 221 include the transverse slat 222 being threaded between two vertical lead screws 220 and consolidate Two support bases 223 of 222 upper end both lateral sides of transverse slat are scheduled on, the upper end of support base 223 is elongated support bar 224, support Item 224 extends along the opening direction of integral finish 203 or integral finish 204, has interval between two support bases 223 and is formed It is inserted into position 229, position 229 is inserted into and faces integral finish 203 or integral finish 204.
Lifting platform 221 further includes the first limited block 225 and the second limited block 226 being mounted on support bar 224, two the One limited block 225 is located at the lateral outer side of support bar 224, and in vertical direction, and the upper surface of the first limited block 225 is higher than branch The upper surface of stay 224.Second limited block position 226 is after on support bar 224 far from integral finish 203 or integral finish 204 Side, in vertical direction, the upper surface of the second limited block 226 is higher than the upper surface of support bar 224;It is set on first limited block 225 The first elongate slots 227 are equipped with, bolt is locked at across the first elongate slots 227 on support bar 224, the extension of the first elongate slots 227 Direction is the transverse direction of lifting gear 22;It is provided with the second elongate slots on second limited block 226(It is not shown in figure), bolt passes through the Two elongate slots are locked on support bar 224, and the extending directions of the second elongate slots is opening for integral finish 203 or integral finish 204 Mouth direction.
Rack 21 is set on the top in the first lifting space 201 there are four elastic supporting mechanism 24, four elastic supporting mechanisms 24 are symmetricly set on the both lateral sides in the first lifting space 201;Elastic supporting mechanism 24 includes mounting base 241 and swing component 242, Mounting base 241 is fixed in rack 21, and the swing of swing component 242 is connected in mounting base 241, and the swing of swing component 242 is by pacifying It fills seat 241 to limit, elastic component is connected between swing component 242 and mounting base 241;Swing component 242 include supporting surface 242a with lead To inclined-plane 242b, the angle between guiding surface 242b and supporting surface 242a is less than 90 degree;Mounting base 241 limits swing component 242 When position, supporting surface 242a is located at horizontality, supporting surface 242a of guiding surface 242b multiple elastic supporting mechanisms 24 downward In in the same horizontal position.
Translating device 23 includes horizontal rail 230 and crawl arm, and horizontal rail 230 is horizontally set on the upper end of rack 21, Crawl arm is slidably matched with horizontal rail 230, crawl arm move in first lifting space 201 and second lifting space 202 it Between.Crawl arm includes 231, two horizontal air cylinders 232 of connector and two arms 233, and connector 231 is slided with horizontal rail 230 Dynamic cooperation, the opposite both lateral sides for being mounted on connector 231 over the ground of two horizontal air cylinders 232, two arms 233 are separately mounted to The output end of one horizontal air cylinder 232, the extending directions of two arms 233 are each perpendicular to the extending direction of horizontal rail, two Arm 233 is oppositely arranged and is overhung at the top in the first lifting space 201 and second lifting space 202.Arm 233 is in horizontal gas Material carrier can be gripped and be supported under the control of cylinder 232, to realize the sideways transfer of single carrier.
Preferably, arm 233 is equipped with third elongate slots, the extension side of the extending direction and arm 233 of third elongate slots To identical, bolt is locked at after passing through third elongate slots on the output end of horizontal air cylinder 232.The extension elongation of arm 233 can be into The micro adjustment of row, to adapt to have various sizes of various materials carrier.
Upper and lower transporter second embodiment
Referring to Fig. 6 and Fig. 7, Fig. 6 and the structure chart that Fig. 7 is upper and lower transporter second embodiment different visual angles.Transport up and down The transport operation principle of machine 3 is identical as the transport operation principle of upper and lower transporter 2, and the upper end of transporter 3 is additionally provided with up and down Workbench, to carry out secondary operation to material.Upper and lower transporter 3 includes rack 31 and two liftings being arranged in rack 31 Device 32 and the translating device 33 above two lifting gears 32 and workbench 34 are provided with crawl on workbench 34 Manipulator 4, processing unit (plant) 5 and apparatus for placing 6.
Rack 31 includes that the first lifting space 301 and second being laterally set up in parallel lifts space 302, the first lifting space 301 and second are respectively provided with there are one lifting gear 32 in lifting space 302, rack 31 the first lifting space 301 front side and Integral finish 303 and integral finish 304 is respectively set in the front side in the second lifting space 302.Lifting gear 32 includes screw component With the lifting platform 321 on screw component, screw component includes driving device and is connected to the phase of driving device output end To being arranged two vertical lead screws 320 of 302 both lateral sides of space are lifted in the first lifting space 301 or second.
Lifting platform 321 is including being threaded in the transverse slat 322 between two vertical lead screws 320 and being fixed on transverse slat 322 The upper end of two support bases 323 of upper end both lateral sides, support base 223 is elongated support bar 324, and support bar 324 is along entirety The opening direction of opening 303 or integral finish 304 extends, and has interval between two support bases 323 and is formed and be inserted into position 329, It is inserted into position 329 and faces integral finish 303 or integral finish 304.
Translating device 33 includes horizontal rail 330 and crawl arm, and horizontal rail 330 is horizontally set on the upper end of rack 31, Crawl arm is slidably matched with horizontal rail 330, crawl arm move in first lifting space 301 and second lifting space 302 it Between.Crawl arm includes 331, two horizontal air cylinders 332 of connector and two arms 333, and connector 331 is slided with horizontal rail 330 Dynamic cooperation, two horizontal air cylinders 332 are relatively mounted on the both lateral sides of connector 331, and two arms 333 are separately mounted to one The extending direction of the output end of a horizontal air cylinder 332, two arms 333 is each perpendicular to the extending direction of horizontal rail, two arms Portion 333 is oppositely arranged and is overhung at the top in the first lifting space 301 and second lifting space 302.Arm 333 is in horizontal air cylinder Material carrier can be gripped and be supported under 332 control, to realize the sideways transfer of single carrier.
Workbench 34 is equipped with catching robot 4, processing unit (plant) 5 and apparatus for placing 6.Catching robot 4 includes truss 41 and it is connected to the negative pressure suction nozzle group 42 of 41 end of truss, truss 41 is arranged at the surface of translating device 33, the end of truss 41 Hold the translation freedoms with X-axis, Y-axis and Z axis, negative pressure suction nozzle group 42 that can be translated within the surface of translating device 33.It is negative Pressure suction nozzle group 42 includes connecting plate 44 and the multiple negative pressure suction nozzles 43 being connected to below connecting plate 44, connecting plate 44 and truss 41 End is fixedly connected, and multiple elongate slots 421 are provided on connecting plate 44, and every four elongate slots 421 are arranged in X-type, each negative pressure Suction nozzle 43 is slidably matched with an elongate slots 421.
Processing unit (plant) 5 includes being slidably connected at processing base 51 on workbench 34 and above processing base 51 Process pressure head 52, processing pressure head 52 include for moulding cast gate carry out flatten processing pressure head and to planeness of workpiece carry out The shaping pressure head of processing, processing pressure head 52 may be selected to be pure pressure ram or hot melt pressure head.The transverse direction of workbench 34(X-axis side To)Both sides are both provided with the sliding rail 341 being extended along the Y axis together, and processing base 51 is slidably matched with sliding rail 341, and processes pressure head 52 are fixed by the bracket on workbench 34, and processing base 51 can slide into the top of translating device 33 along Y direction.
It is the enlarged drawing at B in Fig. 7 in conjunction with Fig. 8, Fig. 8.Apparatus for placing 6 includes placing bottom plate 60 and setting to place bottom plate Multiple placement racks 600 to be taken of rectangular array arrangement on 60, place another 341 edge of road sliding rail of bottom plate 60 and workbench 34 X axis is slidably matched, and multiple placement racks 600 to be taken are slidably to the top of translating device, multiple placement racks 600 to be taken and placement Bottom plate 60 is slidably matched along Y-axis, and the sliding of placement rack to be taken 600 is driven by lead screw device.Placement rack 600 to be taken includes L-type Fixation wall 61, L-type removable wall 62 and positioning cylinder 63, fixation wall 61, which is fixed on, places on bottom plate 60, the elasticity of removable wall 62 It is slidably connected on placing bottom plate 60, positioning cylinder 63, which is horizontally set on, to be placed on bottom plate 60.The output end of positioning cylinder 63 64 can abut and push removable wall 62, to make the set to be picked and placeed 65 of 62 groups of squarelys of fixation wall 61 and removable wall.
Negative pressure suction nozzle group 42 moves between translating device 33 and processing base 52, and negative pressure suction nozzle group 42 move in Between processing base 52 and placement rack to be taken 65.Upper and lower transporter 3 enters or takes simultaneously in addition to multiple carriers of stacking can be achieved Out, the catching robot above rack, processing unit (plant) and apparatus for placing, which is arranged, can also realize secondary operation to material.When For material carrier from the first lifting space 301 after lifting gear 32 is transported to translating device 33, truss 41 drives negative pressure suction nozzle Material in 42 pairs of carriers of group adsorbs, and the sliding of subsequent processing base 52 extend out to 32 top of translating device, negative pressure suction nozzle group 42 are placed into material on processing base 52, and material, which can then enter, carries out cast gate processing or Shape correction in processing unit (plant) 5.Processing After the completion of device 5 works, material is sent to 33 top of translating device by processing base 52 again, then is transferred to by negative pressure suction nozzle group 42 It is moved on the placement rack to be taken 600 of 33 top of translating device.
Material transportation embodiment of the method
In conjunction with the first work that Fig. 1, Fig. 3, Fig. 4, Fig. 9 and Figure 10, Fig. 9 are the utility model material transportation embodiment of the method The schematic diagram of state.Figure 10 is the schematic diagram of the second working condition of the utility model material transportation embodiment of the method.This practicality The material transportation method of novel offer realizes that material transport system includes material transportation robot based on above-mentioned material transport system 1 and upper and lower transporter, due to upper and lower transporter 2 and upper and lower transporter 3(Fig. 6 shows)Material transition principle it is identical, this reality Example is applied to illustrate with upper and lower transporter 2.Material transportation robot 1 obtains material carrier 1000 first, and material carrier 1000 can To be single multiple material carriers that can also make stacking, material carrier 1000 is placed on the second slide unit 124, stretches at this time Platform component 12 is in retracted state, and the second slide unit 124 is located in main body 11, and the front and back side of material carrier 1000 is respectively by limiting Block 141 and adjusting stock 143 limit, and the both lateral sides of material carrier 1000 are limited by one of side wall 113 respectively, therefore travel position In material carrier 1000 be securely placed on the second slide unit 124.
At being then moved to after the acquisition material carrier of material transportation robot 1 1000 where transporter 2 up and down, prepare and upper and lower Transporter 2 is joined.After material transportation robot 1 reaches at 2 place of transporter up and down, before material transportation robot 1 Integral finish 203 above and below the alignment of side on transporter 2, subsequent telescopic platform component 12 work, and the first slide unit 122 is slided relative to first Rail 121 slides and the second slide unit 124 is slided relative to the second sliding rail 123, outside 124 fully extended main body of the second slide unit, subsequent the Two slide units 124 are stretched out outside main body 11 together with material carrier 1000 and are stretched into the first lifting space 201 from integral finish 203, this When the second slide unit 124 be located at and be inserted into position 229 and material carrier 1000 is still supported in the upper surface 124a of the second slide unit 124 On, and still have certain distance between the upper surface 221a of lifting platform 221 and material carrier 1000.
Then the lifting platform 221 of transporter 2 starts and rises up and down.After lifting platform 221 rises certain distance, lifting platform 221 upper surface 221a is abutted with material carrier 1000;Lifting platform 221 continues after rising certain distance, the support of lifting platform 221 223 support material carriers 1000 of seat and material carrier 1000 leave the upper surface 124a of the second slide unit 124.
Subsequent second slide unit 124 is retracted to from insertion position 229 in main body 11, and lifting platform 221 continues to rise with to material Carrier 1000 continues up transport.When material carrier 1000 reaches at elastic supporting mechanism 24, material carrier 1000 is oblique with guiding Face 242b is contacted and swing component 242 is pushed to swing, and after material carrier 1000 is by swing component 242, swing component 242 resets, object Material carrier 1000 can be then supported on multiple supporting surface 242a of multiple elastic supporting mechanisms 24.
After the material on material carrier 1000 is removed, unloaded material carrier 1000 is by translating device 23 from first liter Drop space 201 is transferred in the second lifting space 202, if material transportation robot 1 receives recovery command, material transportation machine People 1 is then moved on the cooperation position for lifting space 202 with second.Since the second slide unit 124 has been positioned in main body 11 at this time, The cooperation position that upper and lower transporter 2 only needs transverse shifting i.e. reachable with the second lifting space 202.
Subsequent second slide unit 124 is from the insertion position 229 that integral finish 204 stretches into the second lifting space 202, material at this time Carrier 1000 is supported on the upper surface 221a of 221 upper support seat 223 of lifting platform, and lifting platform 221 declines, the second slide unit 124 Support material carrier 1000 and material carrier 1000 leave upper surface 221a, and the second last slide unit 124 bounces back in main body 11 i.e. Complete the recycling to unloaded material carrier 1000.
Material transportation robot 1, which enters without entirety in upper and lower transporter 2, can be realized the handing-over of material carrier 1000, And the lifting platform 221 of transporter 2 can be realized while the transport of multiple material carriers to stacking up and down, multiple material carriers 1000 enter or recycle simultaneously simultaneously, and the working frequency of material transportation robot 1 reduces and each transport capacity increases, transport Stablize, strong applicability and work efficiency is high.
Finally it is emphasized that the above is only the preferred embodiment of the present invention, it is not limited to this reality With novel, for those skilled in the art, the utility model can have various change and change, all in the utility model Spirit and principle within, any modification, equivalent substitution, improvement and etc. done should be included in the protection model of the utility model Within enclosing.

Claims (10)

  1. Transporter about 1., including rack, the lifting gear and translating device that are arranged in the rack;
    It is characterized in that:
    The rack includes the first lifting space being laterally set up in parallel and the second lifting space, and described first lifts space and institute It states and is respectively provided in the second lifting space there are one the lifting gear, the translating device extends first lifting space Between top and the top in second lifting space;
    The integral finish for being connected to the first lifting space and second lifting space is provided on front side of the rack;
    The lifting gear includes screw component and the lifting platform on the screw component, and the lifting platform includes being located at There is between two support bases two support bases of the lifting platform both lateral sides interval, the interval to form insertion position, The integral finish is arranged in the insertion plane.
  2. 2. transporter up and down according to claim 1, it is characterised in that:
    The lifting platform further includes the first limited block being mounted on the support base, and first limited block is located at the support The lateral outer side of seat, and in vertical direction, the upper surface of first limited block is higher than the upper surface of the support base.
  3. 3. transporter up and down according to claim 2, it is characterised in that:
    The lifting platform further includes the second limited block being mounted on the support base, and second limited block is located at the support Rear side far from the integral finish on seat, in vertical direction, the upper surface of second limited block is higher than the support base Upper surface.
  4. 4. transporter up and down according to claim 3, it is characterised in that:
    The first elongate slots are provided on first limited block, bolt is locked at the support base across first elongate slots On, the first elongate slots being laterally extended along the lifting gear;
    The second elongate slots are provided on second limited block, bolt is locked at the support base across second elongate slots On, second elongate slots extend along the opening direction of the integral finish.
  5. 5. transporter up and down according to claim 4, it is characterised in that:
    The lifting platform further includes transverse slat, and the screw component includes being arranged in the two vertical of the lifting gear both lateral sides Lead screw, the transverse slat are threaded between two vertical lead screws of the same lifting gear;
    Two support bases of the same lifting gear are each attached on the transverse slat.
  6. 6. transporter up and down according to claim 5, it is characterised in that:
    The upper end of the support base is elongated support bar, and the support bar extends along the opening direction of the integral finish;
    First limited block and second limited block are installed on the support bar.
  7. 7. transporter up and down according to claim 1, it is characterised in that:
    The rack is set on the top in first lifting space there are four elastic supporting mechanism, four elastic supporting mechanisms It is symmetricly set on the both lateral sides in first lifting space;
    The elastic supporting mechanism includes mounting base and swing component, and the mounting base is fixed on the rack, and the swing component is swung It is connected in the mounting base, and the swing of the swing component is limited by the mounting base, the swing component and the mounting base Between be connected with elastic component;
    The swing component includes supporting surface and guiding surface, and the angle between the guiding surface and the supporting surface is less than 90 Degree;
    When the mounting base limits the swing component, the supporting surface is located at horizontality, and the guiding surface is downward, and more The supporting surface of a elastic supporting mechanism is located in the same horizontal position.
  8. 8. transporter up and down according to any one of claims 1 to 7, it is characterised in that:
    The translating device includes horizontal rail and crawl arm, and the horizontal rail is horizontally set in the rack, described to grab Arm is taken to be slidably matched with the horizontal rail, the crawl arm moves empty in the first lifting space and second lifting Between between.
  9. 9. transporter up and down according to claim 8, it is characterised in that:
    The crawl arm includes connector, two horizontal air cylinders and two arms, and the connector is slided with the horizontal rail Cooperation, two horizontal air cylinders are relatively mounted on the both lateral sides of the connector, and two arms are separately mounted to The output end of one horizontal air cylinder, two arms are oppositely arranged;
    The extending direction of two arms is each perpendicular to the extending direction of the horizontal rail.
  10. 10. transporter up and down according to claim 9, it is characterised in that:
    The arm is equipped with third elongate slots, and bolt is locked at the output of the horizontal air cylinder after the third elongate slots On end, the extending direction of the third elongate slots is identical as the extending direction of the arm.
CN201721873160.2U 2017-12-26 2017-12-26 Upper and lower transporter Active CN207698638U (en)

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CN201721873160.2U CN207698638U (en) 2017-12-26 2017-12-26 Upper and lower transporter

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Application Number Priority Date Filing Date Title
CN201721873160.2U CN207698638U (en) 2017-12-26 2017-12-26 Upper and lower transporter

Publications (1)

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CN207698638U true CN207698638U (en) 2018-08-07

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Application Number Title Priority Date Filing Date
CN201721873160.2U Active CN207698638U (en) 2017-12-26 2017-12-26 Upper and lower transporter

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Country Link
CN (1) CN207698638U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110451246A (en) * 2019-06-25 2019-11-15 广东拓斯达科技股份有限公司 Hopper turnover device, material-transporting system and hopper turnover method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110451246A (en) * 2019-06-25 2019-11-15 广东拓斯达科技股份有限公司 Hopper turnover device, material-transporting system and hopper turnover method

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