CN207142763U - One kind is applied to lifting platform in laneway type piler - Google Patents

Abstract

The utility model proposes one kind to be applied to lifting platform in laneway type piler, including the first vertical grid beam, the second vertical grid beam, central pulley and lifting support for being slidably matched with drag rope rotation, the first vertical grid beam and the second vertical grid beam are fixedly mounted on the outside of the both ends of lifting support, and the madial wall grid beam madial wall vertical with second of the first vertical grid beam is parallel to each other；Central pulley is arranged on lifting support outer side surface, and central pulley is located between the madial wall grid beam madial wall vertical with second of the first vertical grid beam；Lifting platform can drive loading platform raising and lowering together in the utility model, to reach goods lifting on loading platform and push on predetermined warehouse shelf；Lifting manipulation safety tongs is provided with lifting platform simultaneously, breaking rope protecting function on the one hand can be played, prevent fork mechanism from being fallen because of wire cable rupture；On the other hand the manipulation for the height that lifting platform and loading platform can also be risen and be declined at any time.

Description

One kind is applied to lifting platform in laneway type piler

Technical field

It the utility model is related to warehouse stacking apparatus field, and in particular to one kind is applied to lift in laneway type piler Platform.

Background technology

Goods carries out stacking after warehouse is transported, it is necessary on shelf, at this moment just needs to use stacking special in warehouse Equipment.Existing warehouse stacking apparatus, which generally comprises walking mechanism and is arranged in walking mechanism, to be used for goods in shelf The upper mechanism for carrying out stacking operation.With the development of warehouse Stacking Technology, warehouse floor space is less and less, and stacking apparatus also needs To change accordingly to adapt to carry out stacking to goods in small space.And when stacking apparatus is operated in small space, warp The problem of often running into is exactly that associated mechanisms can collide with shelf, causes the damage of shelf or equipment, while can bring peace Full hidden danger.Moreover, current stacking apparatus, the noise of its walking mechanism is larger, and the problem could not be resolved always.Also, Wheel in walking mechanism after a certain period of use time, can adhere to certain foreign matter thereon, cause wheel operation to have some setbacks, to whole The normal operation of individual stacking apparatus brings hidden danger.Further, since the shelf in the warehouse of modernization are general higher, this is just needed to use Elevating mechanism, and the elevating mechanism on existing piler is not equipped with safety prevention measure, once there was a mechanical failure, consequence It is hardly imaginable.

Utility model content

The purpose of this utility model be overcome it is insufficient in the prior art, there is provided one kind manipulation safety, can oscilaltion with And the portable laneway type piler of movable free switching, and a kind of application that loading platform can be driven to rise and decline The lifting platform in laneway type piler.

In order to achieve the above object, the utility model is achieved through the following technical solutions：

The utility model proposes a kind of laneway type piler, including double stretch pallet fork formula loading platform, lifting platform, risen for drawing Platform oscilaltion drive device and anterior-posterior translation pulling equipment drop；Described pair is stretched pallet fork formula loading platform and is fixedly connected with lifting platform, Double pallet fork formula loading platforms of stretching can be in company with lifting platform together oscilaltion campaign；

Wherein：Loading platform is that (such as the patent No. 201120185642.5, patent name stretch goods to be double using existing patent Fork；And the patent No.：201220448251.2, patent name stretches the transmission mechanism pitched in pallet fork to be double) in disclose and double stretch goods V shape loading platform；

It is described to be led for drawing lifting platform oscilaltion drive device including hoist engine, electric machine support, column, the first lifting Rail, the second riser guide, rope buckle, first pulley and second pulley, wherein：The hoist engine is fixedly mounted on column side bottom Portion or by middle part, specifically：Hoist engine is fixedly mounted on the side bottom of column one or by centre by electric machine support On position, motor is used to drive hoist engine to rotate forward or reversely rotate, so as to reach traction lifting platform and and lifting platform The loading platform being fixed as one carries out rise/fall motion together；It is provided with column opposite side for sliding guide lifting platform The first riser guide and the second riser guide risen or fallen；The first pulley and second pulley are separately mounted to stand On the both sides position of top end, specifically：Second rotating shaft of the first rotating shaft, second pulley of first pulley is respectively and fixedly installed to On pulley bracket, the pulley bracket is fixedly mounted in column top；

The first pulley rotation forms plane and second pulley rotation forms plane and is located on same vertical plane；

Drag rope is wound with hoist engine, the drag rope upwardly extends to be slided around first pulley and second successively Wheel, then extend downwardly around the central pulley on lifting platform and upwardly extend and be fixedly mounted on rope in column top again Claim-reduction is fixedly connected；

Rotate simultaneously wound and during packing up drag rope starting hoist engine forward direction, first pulley, second are slided Rotation occurs for the central pulley on wheel and lifting platform, and lifting platform is along on column side under the drag rope traction effect of tightening up The first riser guide and the second riser guide move upwards；Rotation is reversed in startup hoist engine while discharges drag rope During, rotation occurs for the central pulley on first pulley, second pulley and lifting platform, is acted in drag rope draw and release Lower lifting platform moves downward along the first riser guide on column side and the second riser guide；

The lifting platform includes the first vertical grid beam, the second vertical grid beam, for what is be slidably matched with drag rope rotation Central pulley and lifting support, wherein：

The first vertical grid beam and the second vertical grid beam are fixedly mounted on the outside of the both ends of lifting support, the first vertical frame The madial wall of beam grid beam madial wall vertical with second is parallel to each other；Central pulley is arranged on lifting support outer side surface, specifically Ground：The central rotating shaft of central pulley is fixedly mounted on lifting support outer side surface, and central pulley rotation formed plane with Lifting support outer side surface remains parallel；And central pulley is located at the madial wall grid beam vertical with second of the first vertical grid beam Between madial wall；

It is installed with the first vertical grid beam madial wall top for can be slided with the first riser guide on column Guide wheel device, its bottom are installed with for can be slidably matched with the first riser guide on column on first coordinated First time guide wheel device；

It is installed with the second vertical grid beam madial wall top for can be slided with the second riser guide on column Guide wheel device, its bottom are installed with for can be slidably matched with the second riser guide on column on second coordinated Second time guide wheel device；

The anterior-posterior translation pulling equipment include be fixedly mounted in column top upper translation driving device, it is upper traction lead Rail, the lower translation driving device being fixedly mounted on column bottom and lower traction guide, wherein：Upper traction guide is led with lower traction It is arranged in parallel between rail, it is slidably connected between upper translation driving device and upper traction guide, lower translation driving device It is slidably connected between lower traction guide；

The upper translation driving device includes two the first clamping wheels, two the second clamping wheels and upper traction guide, two First clamping wheel, two the second clamping wheels are oppositely arranged respectively, and two the first clamping wheels, two the second clamping wheels are fitted in respectively On the two sides of upper traction guide, two the first clamping wheels gripping and sliding between each other and match somebody with somebody to upper traction guide is realized Close connection, two the second clamping wheels gripping and being slidably connected between each other to upper traction guide；Positioned at upper traction It is fixedly connected between first clamping wheel and the second clamping wheel of guide rail the same side by clip wheel connection sheet, so that two first Stably 4 points of sliding support rectangular-shaped frameworks are formed between clamping wheel and two the second clamping wheels, to ensure column anterior-posterior translation Direction and the being consistent property of bearing of trend of upper traction guide；

The lower translation driving device include driving traveling wheel motor, driving traveling wheel, be servo-actuated before two clip wheel, it is driven walk wheel, It is servo-actuated after two and adds wheel, lower bumper and the sill being fixedly mounted on column bottom, wherein：The driving traveling wheel, from Move away wheel be separately positioned on sill bottom surface it is forward, rearward on two-end part, driving traveling wheel motor is used to drive driving traveling wheel Rotated forward or backwards；So as to realize driving sill and column translational motion forward or backward；Folder is servo-actuated before two Wheel, it is servo-actuated after two plus wheel is oppositely arranged respectively, clip wheel is servo-actuated before two, is servo-actuated after two plus wheel is also set, respectively on sill Bottom surface it is forward, rearward on two-end part；

The lower traction guide is I-shaped channel-section steel, driving traveling wheel and it is driven walk the wheel top surface with the I-shaped channel-section steel respectively It is bonded and is slidably connected；Clip wheel is servo-actuated before two on sill bottom surface, be servo-actuated after two plus wheel respectively with the work Two groove faces of correspondence fitting of font channel-section steel, realize to the I-shaped channel-section steel grip and the company of being slidably matched between each other Connect.Stably 4 points of rectangular-shaped frames of sliding support are formed between being servo-actuated plus take turns after clip wheel and two being servo-actuated before so causing two Frame；To ensure sill and column anterior-posterior translation direction and the being consistent property of bearing of trend of I-shaped channel-section steel.

As preferred：Also include being used to limit first pulley or second for drawing lifting platform oscilaltion drive device The limiter of speed of pulley autorotation speed；The limiter of speed includes speed limit pulley, central axle sleeve, compression spring, spring base, base, cunning Wheel seat, the 3rd slide rail, the 3rd sliding block and jacking screw rod；

The speed limit pulley is slidably connected with central axle sleeve and carries out rotation around central axle sleeve, and central axle sleeve passes through Pulley base is fixedly mounted on the 3rd sliding block, and the 3rd sliding block is nested on the 3rd slide rail so that the 3rd sliding block can be slided with the 3rd Rail is slidably connected；

Compression spring top is fixedly connected with the 3rd sliding block, and compression spring bottom is fixedly mounted on spring base, the bullet Spring abutment is fixedly mounted on column by base, and the 3rd slide rail is fixedly mounted on column；

Jacking screw rod is arranged with compression spring, jacking screw rod extends through base and upwardly extended so that jacking screw rod Top can abut with the 3rd sliding block, and jacking screw rod is connected with whorl of base；

When speed limit pulley moves up along the 3rd slide rail, speed limit groove and first pulley on speed limit pulley outer edge It is used to be used for the second groove around drag rope on the first groove or second pulley outer edge of drag rope on outer edge Mutually fasten and abut；To reach limitation or the autorotation speed of control first pulley or second pulley.

As preferred：Guide wheel device includes outer directive wheel I and side directive wheel I, first time guiding on described first Wheel apparatus includes outer directive wheel III and side directive wheel III, and the sense of rotation and the sense of rotation of side directive wheel I of outer directive wheel I are mutual Vertically, the sense of rotation of outer directive wheel I is consistent with carrying out sense of rotation in drag rope driving central pulley, i.e., side is oriented to The sense of rotation of wheel I is mutually perpendicular to carrying out sense of rotation in drag rope driving central pulley；

The sense of rotation and the sense of rotation of side directive wheel III of outer directive wheel III are mutually perpendicular to, the rotation side of outer directive wheel III It is consistent to carrying out sense of rotation in drag rope driving central pulley, i.e., the sense of rotation of side directive wheel III is with drawing Rope driving central pulley carries out sense of rotation and is mutually perpendicular to；

Outer directive wheel I and side directive wheel I are slidably matched with the first riser guide, and outer directive wheel III and side directive wheel III are equal It is slidably matched with the first riser guide, wherein：Side directive wheel I and side directive wheel III are fitted in inside and outside the first riser guide not respectively The same side.

As preferred：Guide wheel device includes outer directive wheel II and side directive wheel II on described second, is led under described second Include outer directive wheel IV and side directive wheel IV to wheel apparatus,

The sense of rotation and the sense of rotation of side directive wheel II of outer directive wheel II are mutually perpendicular to, the rotation side of outer directive wheel II It is consistent to carrying out sense of rotation in drag rope driving central pulley, i.e., the sense of rotation of side directive wheel II is with drawing Rope driving central pulley carries out sense of rotation and is mutually perpendicular to；The sense of rotation of outer directive wheel IV and the rotation side of side directive wheel IV To being mutually perpendicular to, the sense of rotation of side directive wheel IV is consistent with carrying out sense of rotation in drag rope driving central pulley, I.e. the sense of rotation of side directive wheel II is mutually perpendicular to carrying out sense of rotation in drag rope driving central pulley；

Outer directive wheel II and side directive wheel II are slidably matched with the second riser guide, outer directive wheel IV and side directive wheel IV It is slidably matched with the second riser guide, wherein：Side directive wheel II and side directive wheel IV are fitted in the first riser guide respectively Outer not the same side.

As preferred：It is provided with the interior sidewall surface of the first vertical grid beam for controlling the lifting of oscilaltion height to grasp Control safety tongs, lifting manipulation safety tongs includes being fixedly mounted on line slideway in the interior sidewall surface of the first vertical grid beam, straight Line sliding block, driving lever, fork arm, pull bar, arm-tie, clamping screw rod, two fixture blocks for clamping drag rope, pincers block, limited block with And the stake body in the interior sidewall surface of the first vertical grid beam is fixedly mounted on, wherein：The chute being provided with linear slider is set Coordinate on line slideway, the linear slider can slide up and down along line slideway, and the driving lever is fixedly mounted on straight line cunning On block, driving lever can slide up and down along line slideway with linear slider；Pull bar top is flexibly connected with driving lever medial extremity, is drawn Bar is downward through the through hole being provided with by stake body, and pull bar is slidably connected with the through hole that the stake body is provided with； Pull bar bottom is installed with arm-tie, and the arm-tie two side ends offer a bar shape trench hole respectively；

It is installed with stake body for limiting two fixture blocks at two of the enterprising line slip of inside and outside or left and right directions Limited block, wherein：Two fixture blocks are disposed side by side on the inner side of corresponding limited block, and each fixture block is provided with an oblique folder Hold screw rod, oblique clamping screw rod is extended downwardly and sequentially passed through on each fixture block is led to by the round rectangle on stake body In hole and bar shape trench hole on arm-tie on a corresponding side.

While stirring or drawing driving lever and move up, linear slider along the upward sliding of line slideway, this Belt transect moves pull bar and the arm-tie positioned at pull bar bottom also moves up；Due to clamping screw rod obliquely set, arm-tie to During upper movement, two clamping screw rods are by bottom part inner (the i.e. formation effect of bar shape trench hole corresponding with arm-tie respectively Force) abut, so such two clampings screw rod is extruded by bottom part to be displaced outwardly；Simultaneously two clamping screw rods respectively with Round rectangle through hole on stake body is intermediate support, and such two clampings screw rod moves inward by top of supply line, that is, realizes two Individual fixture block comes closer clamping by top of supply line with respective clamp screw rod.Similarly, driving lever is being stirred or drawn to moving down While dynamic, realize two fixture blocks as respective clamp screw rod by top of supply line outwards unclamps separation.Said structure is to employ Lever principle design.

As preferred：The pull bar top is flexibly connected by fork arm with driving lever medial extremity.

As preferred：Multiple pincers blocks for being used to clamp the drag rope that links closely are installed with each fixture block madial wall.

As preferred：It is provided with two between limited block and stake body and tightens screw rod, phase is adjusted by rotary extension Tighten screw rod with answering realize the adjustment far and near to two limited block spacing, that is, realize the adjustment to two fixture block spacing.

As preferred：It is 30 °~45 ° that screw rod, which is clamped, with angle in vertical direction.

As preferred：The bar shape trench hole pore size is 2~4 times of clamping outer screw diameter size.The round rectangle Through-hole aperture is slightly larger than clamping outer screw diameter.

Compared with prior art, the beneficial effects of the utility model are as follows：

Using the technical solution of the utility model, the laneway type piler oscilaltion and movable can freely be cut Change, by lower traction guide be laid in predetermined warehouse floor and with warehouse shelf keeping parallelism so that the laneway type piler It can be adapted to use in narrow space, and fork mechanism can be avoided to bump against with shelf；Lifting platform can drive in the utility model Dynamic load load bed raising and lowering together, to reach goods lifting on loading platform and push on predetermined warehouse shelf；Simultaneously Lifting manipulation safety tongs is provided with lifting platform, breaking rope protecting function on the one hand can be played, prevent fork mechanism because of steel wire Fracture of rope and fall；On the other hand the manipulation for the height that lifting platform and loading platform can also be risen and be declined at any time.

Brief description of the drawings

Fig. 1 is a kind of overall structure diagram of laneway type piler in the utility model.

Fig. 2 is the structural representation for being used to draw lifting platform oscilaltion drive device in the utility model.

Fig. 3 is the structural representation of upper translation driving device in the utility model.

Fig. 4~5 are the structural representation of limiter of speed in the utility model.

Fig. 6~8 are the structural representation of lifting platform and loading platform in the utility model.

Fig. 9~10 are the structural representation of lifting manipulation safety tongs in the utility model.

Figure 11 is the structural representation of lower translation driving device in the utility model.

Figure 12 is lower translation driving device and the structural representation of lower traction guide in the utility model.

Reference：

Lifting manipulation safety tongs 1, line slideway 101, linear slider 102, driving lever 103, fork arm 104, pull bar 105, arm-tie 106, screw rod 107 is clamped, fixture block 108, block 1081 is clamped, limited block 109, stake body 110, tightens screw rod 1101, round rectangle leads to Hole 1102；

Lifting platform 2, guide wheel device 21 on first, outer directive wheel I 211, side directive wheel I 212, guide wheel device on second 22, outer directive wheel II 221, side directive wheel II 222, first time guide wheel device 23, outer directive wheel III 231, side directive wheel III 232, second time guide wheel device 24, outer directive wheel IV 241, side directive wheel IV 242, central pulley 25, the first vertical grid beam 26, Second vertical grid beam 27, lifting support 28；

Hoist engine 31, electric machine support 311, column 32, the first riser guide 321, the second riser guide 322, rope buckle 323, first pulley 33, first rotating shaft 331, pulley bracket 332, upper bumper 333, second pulley 34, the second rotating shaft 341, limit Fast device 35, speed limit pulley 351, central axle sleeve 352, compression spring 353, spring base 354, base 355, the 3rd slide rail 356, the 3rd Sliding block 357, pulley base 358, cat ladder 36, connecting plate 361, guardrail 37；

First clamping wheel 41, the second clamping wheel 42, clip wheel connection sheet 43, upper traction guide 44, lower translation driving device 5, Sill 50, driving traveling wheel motor 51, driving traveling wheel 52, preceding servo-actuated clip wheel 53, it is driven walk wheel 54, rear servo-actuated plus wheel 55 is lower slow Rush device 56.

Embodiment

The technical solution of the utility model is described further with reference to Figure of description：

As shown in Fig. 1~12, the utility model proposes a kind of specific embodiment of laneway type piler, including double pallet fork is stretched Formula loading platform 6, lifting platform 2, for drawing the oscilaltion drive device of lifting platform 2 and anterior-posterior translation pulling equipment；Described pair is stretched Pallet fork formula loading platform 6 is fixedly connected with lifting platform 2, and double pallet fork formula loading platforms 6 of stretching can be transported in company with lifting platform 2 together oscilaltion It is dynamic.

As shown in Fig. 1 and Fig. 6~7：Loading platform 6 is to use the existing patent such as patent No. 201120185642.5, specially Entitled pair of profit stretches pallet fork；And the patent No.：201220448251.2, patent name is stretched in the transmission mechanism pitched in pallet fork to be double Disclose and double stretch pallet fork formula loading platform 6.

As shown in Fig. 1~2：The present embodiment provides one kind and is applied to lifting platform in laneway type piler, specifically：The use In traction the oscilaltion drive device of lifting platform 2 include hoist engine 31, electric machine support 311, column 32, the first riser guide 321, Second riser guide 322, rope buckle 323, first pulley 33 and second pulley 34, wherein：The hoist engine 31 is fixedly mounted on The side bottom of column 32 1 or by middle part, specifically：Hoist engine 31 is fixedly mounted on column 32 by electric machine support 311 One side bottom or by middle part, motor is used to drive hoist engine 31 to rotate forward or reversely rotate, and is led so as to reach Draw lifting platform 2 and rise/fall motion is carried out together with the loading platform 6 that lifting platform 2 is fixed as one；On the opposite side of column 32 It is provided with the first riser guide 321 and the second riser guide 322 risen or fallen for sliding guide lifting platform 2；Institute State first pulley 33 and second pulley 34 is separately mounted on the both sides position on the top of column 32, specifically：First pulley 33 Second rotating shaft 341 of first rotating shaft 331, second pulley 34 is respectively and fixedly installed on pulley bracket 332, the pulley bracket 332 are fixedly mounted on the top of column 32；The rotation of first pulley 33 forms plane and formed with the rotation of second pulley 34 Plane is located on same vertical plane；

Drag rope is wound with hoist engine 31, the drag rope upwardly extends bypasses first pulley 33 and second successively Pulley 34, then extend downwardly around the central pulley 25 on lifting platform 2 and upwardly extend and be fixedly mounted on column 32 again Rope buckle 323 on top is fixedly connected.

As shown in figure 1, start the forward direction of hoist engine 31 rotate it is simultaneously wound and during packing up drag rope, first Rotation occurs for the central pulley 25 on pulley 33, second pulley 34 and lifting platform 2, is risen under the drag rope traction effect of tightening up Drop platform 2 moves upwards along the first riser guide 321 on the side of column 32 and the second riser guide 322；Starting hoist engine During 31 are reversed rotation while discharge drag rope, the center on first pulley 33, second pulley 34 and lifting platform 2 Rotation occurs for pulley 25, and lifting platform 2 is along the first riser guide on the side of column 32 under the effect of drag rope draw and release 321 and second riser guide 322 move downward.

As can be seen from figures 6 to 8：The lifting platform 2 include the first vertical grid beam 26, the second vertical grid beam 27, for traction The central pulley 25 and lifting support 28 that rope rotation is slidably matched, wherein：The first vertical vertical frame of grid beam 26 and second Beam 27 is fixedly mounted on the outside of the both ends of lifting support 28, the madial wall inner side of grid beam 27 vertical with second of the first vertical grid beam 26 Wall is parallel to each other；Central pulley 25 is arranged on the outer side surface of lifting support 28, specifically：The central rotating shaft of central pulley 25 is consolidated Dingan County is on the outer side surface of lifting support 28, and the rotation of central pulley 25 forms plane and begun with the outer side surface of lifting support 28 Whole keeping parallelism；And central pulley 25 is located between the madial wall madial wall of grid beam 27 vertical with second of the first vertical grid beam 26；

It is installed with the first vertical madial wall top of grid beam 26 for can be with the first riser guide on column 32 321 be slidably matched first on guide wheel device 21, its bottom be installed with for can be with the first lifting on column 32 First time guide wheel device 23 that guide rail 321 is slidably matched；

It is installed with the second vertical madial wall top of grid beam 27 for can be with the second riser guide on column 32 322 be slidably matched second on guide wheel device 22, its bottom be installed with for can be with the second lifting on column 32 Second time guide wheel device 24 that guide rail 322 is slidably matched；

As shown in Fig. 3 and Figure 11~12：The anterior-posterior translation pulling equipment includes being fixedly mounted on the top of column 32 Upper translation driving device, upper traction guide 44, the lower translation driving device 5 being fixedly mounted on the bottom of column 32 and lower traction are led Rail 7, wherein：It is arranged in parallel between upper traction guide 44 and lower traction guide 7, upper translation driving device and upper traction guide Between be slidably connected, be slidably connected between lower translation driving device and lower traction guide.

As shown in Figure 3：The upper translation driving device include two the first clamping wheels, 41, two the second clamping wheels 42 and on Traction guide 44, two the first clamping wheels, 41, two the second clamping wheels 42 are oppositely arranged respectively, two the first clamping wheels 41, two Individual second clamping wheel 42 is fitted on the two sides of traction guide 44 respectively, realizes that two the first clamping wheels 41 are led to upper traction The gripping and be slidably connected between each other of rail 44, two the second gripping to upper traction guide 44 of clamping wheel 42 And it is slidably connected between each other；Between first clamping wheel 41 and the second clamping wheel 42 of upper the same side of traction guide 44 It is fixedly connected by clip wheel connection sheet 43, so that formed between two the first clamping wheels 41 and two the second clamping wheels 42 steady Surely 4 points of sliding support rectangular-shaped frameworks, to ensure that the anterior-posterior translation direction of column 32 and the bearing of trend of upper traction guide 44 are protected Hold uniformity.

As shown in Figure 11~12：Before the lower translation driving device includes driving traveling wheel motor 51, driving traveling wheel 52, two Servo-actuated clip wheel 53, it is driven walk 54, two, wheel after be servo-actuated plus wheel 55, lower bumper 56 and be fixedly mounted on the bottom of column 32 Sill 50, wherein：The driving traveling wheel 52, it is driven walk wheel 54 be separately positioned on forward, the both ends rearward of the bottom surface of sill 50 On position, driving traveling wheel motor 51 is used to drive driving traveling wheel 52 to be rotated forward or backwards；So as to realize driving sill 50 and the translational motion forward or backward of column 32；It is servo-actuated after clip wheel 53, two is servo-actuated before two plus wheel 55 is oppositely arranged respectively, It is servo-actuated after clip wheel 53, two is servo-actuated before two plus wheel 55 is also set, respectively on forward, the two-end part rearward of the bottom surface of sill 50 On；The lower traction guide 7 is I-shaped channel-section steel, driving traveling wheel 52 and it is driven walk the top surface with the I-shaped channel-section steel respectively of wheel 54 71 are bonded and are slidably connected；55 points are servo-actuated plus taken turns after clip wheel 53, two is servo-actuated before two on the bottom surface of sill 50 Two groove faces 72 not corresponding with the I-shaped channel-section steel are bonded, and realize gripping simultaneously between each other to the I-shaped channel-section steel Sliding connection.It is servo-actuated after clip wheel 53 and two are servo-actuated before so causing two plus stably 4 points of slips is formed between taking turns 55 Support rectangular-shaped framework；To ensure that sill 50 and the anterior-posterior translation direction of column 32 and the bearing of trend of I-shaped channel-section steel are kept Uniformity.

As shown in Fig. 1 and Fig. 4~5：Also include being used to limit the first cunning for drawing the oscilaltion drive device of lifting platform 2 The limiter of speed 35 of wheel 33 or the autorotation speed of second pulley 34；The limiter of speed 35 include speed limit pulley 351, central axle sleeve 352, Compression spring 353, spring base 354, base 355, pulley base 358, the 3rd slide rail 356, the 3rd sliding block 357 and jacking screw rod 358； The speed limit pulley 351 is slidably connected with central axle sleeve 352 and carries out rotation, central axle sleeve 352 around central axle sleeve 352 It is fixedly mounted on by pulley base 358 on the 3rd sliding block 357, the 3rd sliding block 357 is nested on the 3rd slide rail 356 so that the 3rd Sliding block 357 can be slidably connected with the 3rd slide rail 356；The top of compression spring 353 is fixedly connected with the 3rd sliding block 357, pressure The bottom of contracting spring 353 is fixedly mounted on spring base 354, and the spring base 354 is fixedly mounted on column 32 by base 355 On, the 3rd slide rail 356 is fixedly mounted on column 32；Jacking screw rod 358 is arranged with compression spring 353, jacks screw rod 358 Extending through base 355 and upwardly extending enables the jacking top of screw rod 358 to be abutted with the 3rd sliding block 357, jacks screw rod 358 It is connected with the screw thread of base 355；When speed limit pulley 351 moves up along the 3rd slide rail 356, the outside of speed limit pulley 351 It is used for the first groove 332 or second pulley around drag rope along upper speed limit groove 3511 and the outer edge of first pulley 33 The second groove 342 being used on 34 outer edges around drag rope, which mutually fastens, to abut；To reach limitation or control first pulley 33 Or the autorotation speed of second pulley 34.

As shown in figs. 6-7：Guide wheel device 21 includes outer directive wheel I 211 and side directive wheel I 212, institute on described first Stating first time guide wheel device 23 includes outer directive wheel III 231 and side directive wheel III 232, the sense of rotation of outer directive wheel I 211 with The sense of rotation of side directive wheel I 212 is mutually perpendicular to, and the sense of rotation of outer directive wheel I 211 in drag rope with driving central pulley 25 progress senses of rotation are consistent, i.e., the sense of rotation of side directive wheel I 212 in drag rope driving central pulley 25 with carrying out Sense of rotation is mutually perpendicular to；The sense of rotation and the sense of rotation of side directive wheel III 232 of outer directive wheel III 231 are mutually perpendicular to, outside The sense of rotation of directive wheel III 231 is consistent with carrying out sense of rotation in drag rope driving central pulley 25, i.e., side is oriented to III 232 sense of rotation is taken turns to be mutually perpendicular to carrying out sense of rotation in drag rope driving central pulley 25；Outer directive wheel I 211 It is slidably matched with side directive wheel I 212 with the first riser guide 321, outer directive wheel III 231 and side directive wheel III 232 are with One riser guide 321 is slidably matched, wherein：Side directive wheel I 212 and side directive wheel III 232 are fitted in the first riser guide respectively Not the same side inside and outside 321.

As shown in figs. 6-7：Guide wheel device 22 includes outer directive wheel II 221 and side directive wheel II 222 on described second, Second time guide wheel device 24 includes outer directive wheel IV 241 and side directive wheel IV 242, the rotation side of outer directive wheel II 221 Be mutually perpendicular to the sense of rotation with side directive wheel II 222, the sense of rotation of outer directive wheel II 221 with drag rope driving in Heart pulley 25 carries out sense of rotation and is consistent, i.e., the sense of rotation of side directive wheel II 222 at drag rope driving center with sliding The progress of wheel 25 sense of rotation is mutually perpendicular to；The sense of rotation and the sense of rotation of side directive wheel IV 242 of outer directive wheel IV 241 are mutual Vertically, the sense of rotation of side directive wheel IV 242 is consistent with carrying out sense of rotation in drag rope driving central pulley 25, i.e., The sense of rotation of side directive wheel II 222 is mutually perpendicular to carrying out sense of rotation in drag rope driving central pulley 25；Outer guiding Take turns II 221 and side directive wheel II 222 be slidably matched with the second riser guide 322, outer directive wheel IV 241 and side directive wheel IV 242 are slidably matched with the second riser guide 322, wherein：Side directive wheel II 222 and side directive wheel IV 242 are fitted in respectively Not the same side inside and outside one riser guide 321.

As shown in Fig. 7 and Fig. 9~10：The present embodiment also provides a kind of applied to lifting manipulation safety in laneway type piler Pincers, specifically：It is provided with the interior sidewall surface of the first vertical grid beam 26 for controlling the lifting of oscilaltion height to manipulate peace Full pincers 1, line slideway 101 that lifting manipulation safety tongs 1 includes being fixedly mounted in the interior sidewall surface of the first vertical grid beam 26, Linear slider 102, driving lever 103, fork arm 104, pull bar 105, arm-tie 106, clamping screw rod 107, for clamp drag rope two Individual fixture block 108, pincers block 1081, limited block 109 and the stake body being fixedly mounted in the interior sidewall surface of the first vertical grid beam 26 110, wherein：The chute being provided with linear slider 102 sets cooperation on line slideway 101, and the linear slider 102 being capable of edge Line slideway 101 to slide up and down, the driving lever 103 is fixedly mounted in linear slider 102, and driving lever 103 can be with straight line Sliding block 102 slides up and down along line slideway 101；The top of pull bar 105 is flexibly connected with the medial extremity of driving lever 103, and pull bar 105 is downward The through hole that stake body 110 is provided with is extended through, and pull bar 105 is slidably connected with the through hole that the stake body 110 is provided with； Arm-tie 106 is installed with the bottom of pull bar 105, the two side ends of arm-tie 106 offer a bar shape trench hole 1061 respectively；Propping up Two limited blocks for limiting two fixture blocks 108 in the enterprising line slip of inside and outside or left and right directions are installed with support body 110 109, wherein：Two fixture blocks 108 are disposed side by side on the inner side of corresponding limited block 109, and each fixture block 108 is inclined provided with one The clamping screw rod 107 of shape, oblique clamping screw rod 107, which is extended downwardly and sequentially passed through, on each fixture block 108 passes through support In round rectangle through hole 1102 on body 110 and the bar shape trench hole 1061 on arm-tie 106 on a corresponding side.

As shown in Figure 9：While stirring or drawing driving lever 103 and move up, linear slider 102 is along line slideway 101 upward slidings, so pull bar 105 and the arm-tie 106 positioned at the bottom of pull bar 105 is driven to also move up；Due to folder Screw rod 107 is held obliquely to set, during arm-tie 106 moves up, two clamping screw rods 107 by bottom part respectively with Corresponding bar shape trench hole 1061 is inner on arm-tie 106 forms force position abutting, and so such two clampings screw rod 107 leans on bottom End position, which is extruded, to be displaced outwardly；Two clamping screw rods 107 are respectively with the round rectangle through hole 1102 on stake body 110 simultaneously Intermediate support, such two clampings screw rod 107 move inward by top of supply line, that is, realize two fixture blocks 108 with respective clamp Screw rod 107 comes closer clamping by top of supply line.Similarly, while stirring or drawing driving lever 103 and move down, realize Two fixture blocks 108 by top of supply line outwards unclamp separation with respective clamp screw rod 107.Said structure is to employ lever principle Design.

As shown in Figure 9：The top of pull bar 105 is flexibly connected by fork arm 104 with the medial extremity of driving lever 103.In each folder Multiple pincers blocks 1081 for being used to clamp the drag rope that links closely are installed with the madial wall of block 108.In two limited blocks 109 and branch It is provided between support body 110 and tightens screw rod 1101, correspondingly tightening screw rod 1101 by rotary extension adjustment realizes to two The far and near adjustment of the spacing of limited block 109, that is, realize the adjustment to two spacing of fixture block 108.Clamp in screw rod 107 and vertical direction Angle is 30 °~45 °.The pore size of bar shape trench hole 1061 is 2~4 times of the clamping external diameter size of screw rod 107.The fillet The aperture of rectangular through-hole 1102 is slightly larger than the clamping external diameter of screw rod 107.

Using the technical solution of the utility model, the laneway type piler oscilaltion and movable can freely be cut Change, by lower traction guide be laid in predetermined warehouse floor and with warehouse shelf keeping parallelism so that the laneway type piler It can be adapted to use in narrow space, and fork mechanism can be avoided to bump against with shelf；Lifting is provided with lifting platform simultaneously Safety tongs is manipulated, breaking rope protecting function on the one hand can be played, prevent fork mechanism from being fallen because of wire cable rupture；On the other hand The manipulation for the height that lifting platform and loading platform can also be risen and be declined at any time.

Above-described embodiment be to explanation of the present utility model, be not to restriction of the present utility model, it is any new to this practicality Scheme after type simple transformation belongs to the scope of protection of the utility model.

Claims (9)

1. one kind is applied to lifting platform in laneway type piler, it is characterised in that including the first vertical grid beam (26), second vertical Grid beam (27), central pulley (25) and lifting support (28) for being slidably matched with drag rope rotation, wherein：

The first vertical grid beam (26) and the second vertical grid beam (27) are fixedly mounted on the outside of the both ends of lifting support (28), the Madial wall grid beam (27) madial wall vertical with second of one vertical grid beam (26) is parallel to each other；Central pulley (25) is arranged on lifting On support (28) outer side surface, and central pulley (25) is located at the madial wall grid beam vertical with second of the first vertical grid beam (26) (27) between madial wall；

It is installed with the first vertical grid beam (26) madial wall top for can be slidably matched with the first riser guide (321) First on guide wheel device (21), its bottom be installed with for that can be slidably matched with the first riser guide (321) First time guide wheel device (23)；

It is installed with the second vertical grid beam (27) madial wall top for can be slidably matched with the second riser guide (322) Second on guide wheel device (22), its bottom be installed with for that can be slidably matched with the second riser guide (322) Second time guide wheel device (24).

2. lifting platform in laneway type piler is applied to according to one kind described in claim 1, it is characterised in that described first Upper guide wheel device (21) includes outer directive wheel I (211) and side directive wheel I (212), first time guide wheel device (23) bag Include outer directive wheel III (231) and side directive wheel III (232), sense of rotation and the side directive wheel I (212) of outer directive wheel I (211) Sense of rotation is mutually perpendicular to, and the sense of rotation of outer directive wheel I (211) in drag rope driving central pulley (25) with carrying out rotation Direction is consistent；

The sense of rotation and the sense of rotation of side directive wheel III (232) of outer directive wheel III (231) are mutually perpendicular to, outer directive wheel III (231) sense of rotation is consistent with carrying out sense of rotation in drag rope driving central pulley (25)；

Outer directive wheel I (211) and side directive wheel I (212) are slidably matched with the first riser guide (321), outer directive wheel III (231) it is slidably matched with side directive wheel III (232) with the first riser guide (321), wherein：Side directive wheel I (212) and side are led The inside and outside not the same side of the first riser guide (321) is fitted in respectively to III (232) of wheel.

3. lifting platform in laneway type piler is applied to according to one kind described in claim 1, it is characterised in that described second Upper guide wheel device (22) includes outer directive wheel II (221) and side directive wheel II (222), second time guide wheel device (24) Including outer directive wheel IV (241) and side directive wheel IV (242), sense of rotation and the side directive wheel II of outer directive wheel II (221) (222) sense of rotation is mutually perpendicular to, and the sense of rotation of outer directive wheel II (221) in drag rope with driving central pulley (25) Sense of rotation is carried out to be consistent；

The sense of rotation and the sense of rotation of side directive wheel IV (242) of outer directive wheel IV (241) are mutually perpendicular to, side directive wheel IV (242) sense of rotation is consistent with carrying out sense of rotation in drag rope driving central pulley (25), outer directive wheel II (221) it is slidably matched with side directive wheel II (222) with the second riser guide (322), outer directive wheel IV (241) and side directive wheel IV (242) are slidably matched with the second riser guide (322), wherein：Side directive wheel II (222) and side directive wheel IV (242) point The inside and outside not the same side of the first riser guide (322) is not fitted in.

4. lifting platform in laneway type piler is applied to according to one kind described in claim 1,2 or 3, it is characterised in that It is provided with the interior sidewall surface of first vertical grid beam (26) for controlling the lifting of oscilaltion height to manipulate safety tongs (1), should Lifting manipulation safety tongs (1) includes being fixedly mounted on line slideway (101) in the interior sidewall surface of the first vertical grid beam (26), straight Line sliding block (102), driving lever (103), pull bar (105), arm-tie (106), two fixture blocks (108) for clamping drag rope, limit Position block (109) and the stake body (110) being fixedly mounted in the interior sidewall surface of the first vertical grid beam (26), wherein：

The chute being provided with linear slider (102) sets cooperation on line slideway (101), and the linear slider (102) can Slided up and down along line slideway (101), the driving lever (103) is fixedly mounted in linear slider (102), pull bar (105) top End is flexibly connected with driving lever (103) medial extremity, and pull bar (105) is drawn downward through the through hole being provided with by stake body (110) Bar (105) is slidably connected with the through hole that the stake body (110) is provided with；

Arm-tie (106) is installed with pull bar (105) bottom, arm-tie (106) two side ends offer a bar-shaped trough respectively Hole (1061)；

It is installed with stake body (110) for limiting two fixture blocks (108) in the enterprising line slip of inside and outside or left and right directions Two limited blocks (109), wherein：Two fixture blocks (108) are disposed side by side on the inner side of corresponding limited block (109), each fixture block (108) it is provided with an oblique clamping screw rod (107), oblique clamping screw rod (107) on each fixture block (108) Extend downwardly and sequentially pass through by the round rectangle through hole (1102) on stake body (110) and positioned at arm-tie (106) on pair Answer in the bar shape trench hole (1061) on a side.

5. lifting platform in laneway type piler is applied to according to one kind described in claim 4, it is characterised in that the pull bar (105) top is flexibly connected by fork arm (104) with driving lever (103) medial extremity.

6. lifting platform in laneway type piler is applied to according to one kind described in claim 4, it is characterised in that in each folder Multiple pincers blocks (1081) for being used to clamp the drag rope that links closely are installed with block (108) madial wall.

7. lifting platform in laneway type piler is applied to according to one kind described in claim 4, it is characterised in that in two limits It is provided between position block (109) and stake body (110) and tightens screw rod (1101), spiral shell is correspondingly tightened by rotary extension adjustment Bar (1101) realizes the adjustment far and near to two limited block (109) spacing, that is, realizes the adjustment to two fixture block (108) spacing.

8. lifting platform in laneway type piler is applied to according to one kind described in claim 4, it is characterised in that clamping screw rod (107) it is 30 °~45 ° with angle in vertical direction.

9. lifting platform in laneway type piler is applied to according to one kind described in claim 4, it is characterised in that the bar shaped Slotted eye (1061) pore size is 2~4 times of clamping screw rod (107) external diameter size.