CN209065357U - The guiding device of stacker loading platforms - Google Patents

Abstract

The utility model discloses a kind of guiding devices of stacker loading platforms, it include: the guide rail and guiding trestle for being fixedly installed on loading platform two sides, on the guiding trestle of every side successively on, under be arranged at intervals with top guide wheel group and lower part guide wheel group, each guide wheel group includes several directive wheels, each directive wheel is installed on eccentric shaft, eccentric shaft includes eccentric shaft construction section, eccentric shaft shaft shoulder section and eccentric shaft fixed section, directive wheel is mounted on eccentric shaft construction section, eccentric shaft fixed section is threaded through in the mounting hole of guiding trestle, eccentric shaft shaft shoulder section block is between directive wheel and guiding trestle, swelling has tapered sleeve between the mounting hole and eccentric shaft fixed section of guiding trestle, the structure of tapered sleeve includes: tapered sleeve ontology and tapered sleeve retaining ring, eccentric shaft fixed section stretches out tapered sleeve, locking nut is provided on eccentric shaft fixed section outside tapered sleeve.Utility model has the advantages that the installation between eccentric shaft and guiding trestle is more solid and reliable, to effectively ensure that loading platform will not run-off the straight.

Description

The guiding device of stacker loading platforms

Technical field

The utility model relates to piler technical fields, and in particular to the guiding device of stacker loading platforms.

Background technique

Piler is lifting and haulage equipment important in tiered warehouse facility, stacking function in the horizontal direction, short transverse with And pallet fork forks direction movement.Wherein the movement of short transverse is primarily referred to as the lifting of loading platform.The loading platform of piler Guiding device is oriented to lower elevating movement.The structure of the guiding device of current stacker loading platforms includes: to be arranged in loading vertically The guide rail of platform setting, the two sides of guide rail are fixedly installed guide rail respectively, the guide rail of every side with ipsilateral top guide wheel group and Lower part guide wheel group matches, and the top guide wheel group and lower part guide wheel group of every side are arranged at intervals on loading platform above and below, Each guide wheel group includes a pair of of the directive wheel being arranged in a mutually vertical manner, and a pair of of directive wheel in each guide wheel group is set respectively It sets outside orthogonal two sides of guide rail, there are gap between each directive wheel and guide rail, each directive wheel is pacified On eccentric shaft, the eccentric shaft includes eccentric shaft construction section, eccentric shaft shaft shoulder section, eccentric shaft fixed section, eccentric shaft peace The axis of section and the eccentric axis of eccentric shaft fixed section are filled, directive wheel is mounted on eccentric shaft construction section, and eccentric shaft fixed section is worn It is located in the mounting hole of guiding trestle and is locked on guiding trestle by locking nut；The guide rail of loading platform two sides is in every side Top guide wheel group and lower part guide wheel group guiding under elevating movement.

The guiding device of current stacker loading platforms, have the following deficiencies: one, loading platform frequently move up and down generate Vibration is easy so that the eccentric shaft of adjustment good position loosens, so as to cause loading platform inclination.Two, the loading platform to bear a heavy burden for a long time is easy It deforms, is easy to produce stuck failure in the upper and lower motion process of loading platform.

Utility model content

The utility model technical issues that need to address are: providing a kind of guiding device of stacker loading platforms, the guiding Eccentric shaft installation is firm in device.

To solve the above problems, the technical solution adopted in the utility model is: the guiding device of stacker loading platforms, packet Include: being arranged in the column of loading platform setting vertically, the two sides of column are fixedly installed guide rail respectively, the guide rail of every side with it is ipsilateral Top guide wheel group and lower part guide wheel group match, between the top guide wheel group and lower part guide wheel group of every side are upper and lower Every being arranged on loading platform, each guide wheel group includes several directive wheels, and each directive wheel is installed on eccentric shaft, partially Mandrel includes eccentric shaft construction section, eccentric shaft shaft shoulder section and eccentric shaft fixed section, the axis and eccentric shaft of eccentric shaft construction section The eccentric axis of fixed section, directive wheel are mounted on eccentric shaft construction section, and eccentric shaft fixed section is threaded through the guiding on loading platform In the mounting hole of bracket, eccentric shaft shaft shoulder section block is between directive wheel and guiding trestle, the mounting hole and bias of guiding trestle Swelling has a tapered sleeve between axis fixed section, and the structure of tapered sleeve includes: tapered sleeve ontology and tapered sleeve retaining ring, the outside diameter of tapered sleeve ontology by One end far from tapered sleeve retaining ring is gradually increased to one end close to tapered sleeve retaining ring, eccentric shaft fixed section stretching tapered sleeve, outside tapered sleeve It is provided with locking nut on eccentric shaft fixed section, when tightening locking nut, locking nut pressure gear makes tapered sleeve on tapered sleeve retaining ring It is moved to directive wheel direction, so that the further swelling of tapered sleeve is between mounting hole and eccentric shaft fixed section.

Further, the guiding device of stacker loading platforms above-mentioned, wherein each guide wheel group includes that there are three lead To wheel --- it is directed laterally to wheel outside one and two are directed laterally to wheel, two in each guide wheel group are directed laterally to the installation of wheel Direction is perpendicular with the installation direction that is directed laterally to wheel outside, and two in each guide wheel group are directed laterally to wheel and are respectively set The outer outside for being directed laterally to wheel and being arranged at corresponding guide rail in corresponding guide rail two sides, in each guide wheel group.

Further, the guiding device of stacker loading platforms above-mentioned, wherein the top guide wheel group positioned at the same side It is directed laterally to wheel outside with two in the guide wheel group of lower part, one of them is fitted with guide rail, another is between guide rail There are gap, the outer wheel that is directed laterally to for fitting in guide rail setting of two sides is arranged in diagonal line.

Still further, the guiding device of stacker loading platforms above-mentioned, wherein two in the top guide wheel group of every side A to be directed laterally to wheel, one of them is fitted in, and guide rail setting, there are gap, a pair of of upper guides of two sides between guide rail for another The wheel that is directed laterally to for fitting in guide rail setting into wheel group is arranged in diagonal；Two in the lower part guide wheel group of every side A to be directed laterally to wheel, one fits in that guide rail setting, there are gap, a pair of of lower part directive wheels of two sides between guide rail for another The wheel that is directed laterally to for fitting in guide rail setting in group is arranged in diagonal；Patch in a pair of of top guide wheel group of two sides Two diagonal line arranged directions for being directed laterally to wheel together in guide rail setting and being bonded in a pair of of lower part guide wheel group of two sides It is identical in two diagonal line arranged directions for being directed laterally to wheel of guide rail setting.

Still further, the guiding device of stacker loading platforms above-mentioned, wherein the top guide wheel group of every side is under It is directed laterally to wheel outside two in portion's guide wheel group, one of them is fitted in, and guide rail setting, there are 5mm between guide rail for another The gap of~6mm；Two in the top guide wheel group of every side are directed laterally to wheel, one of them fits in guide rail and is arranged, is another It is a that there are the gaps of 5mm~6mm between guide rail.

Further, the guiding device of stacker loading platforms above-mentioned, wherein the spiral shell of disassembly is provided on tapered sleeve retaining ring Pit.

Further, the guiding device of stacker loading platforms above-mentioned, wherein each directive wheel is living by roller bearing It is dynamic to be mounted on eccentric shaft construction section.

The utility model has the advantages that: one, it, can be further swollen under the locking pressure gear of locking nut tapered sleeve preliminary swelling after Tightly, this makes the installation between eccentric shaft and guiding trestle more solid and reliable, and avoiding problems frequently go up and down fortune because of loading platform The vibration that is generated when dynamic and cause to free the case where loosening between eccentric shaft and guiding trestle, to effectively ensure that loading platform will not Run-off the straight.Two, the wheel that is directed laterally to for fitting in guide rail setting forms guide rail and is preferably oriented to being directed laterally to take turns outside, has Effect prevents loading platform from tilting, and there are the wheels that is directed laterally in gap can effectively prevent guide rail with wheel is directed laterally to outside with guide rail Stuck failure to greatly improve the stability of loading platform operation, and then effectively improves stacking efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the guiding device of stacker loading platforms described in the utility model.

Fig. 2 is structural schematic diagram shown in Fig. 1 left view direction.

Fig. 3 is structural schematic diagram shown in Fig. 1 overlook direction.

Fig. 4 is A-A section view direction structural schematic diagram in Fig. 3.

Specific embodiment

The utility model is described in further detail with preferred embodiment with reference to the accompanying drawing.

As shown in Figure 1, Figure 2, Figure 3, Figure 4, the guiding device of stacker loading platforms, comprising: be arranged in loading platform 1 vertically and set The column 2 set, the two sides of column 2 are fixedly installed guide rail 3 respectively, the guide rail 3 of every side with ipsilateral top guide wheel group 4 and Lower part guide wheel group 5 matches, and the top guide wheel group 4 and lower part guide wheel group 5 of every side are arranged at intervals on loading platform above and below On 1.The arrangement of top guide wheel group 4 and lower part guide wheel group 5, reference can be made to shown in Fig. 1.

Each guide wheel group includes several directive wheels, and each directive wheel is installed on eccentric shaft 7, and eccentric shaft 7 includes Eccentric shaft construction section 71, eccentric shaft shaft shoulder section 72 and eccentric shaft fixed section 73, the axis and eccentric shaft of eccentric shaft construction section 71 The eccentric axis of fixed section 73.Directive wheel is mounted on eccentric shaft construction section 71, and each directive wheel passes through rolling in the present embodiment Wheel bearing 60 is movably arranged on eccentric shaft construction section 71.Eccentric shaft fixed section 73 is threaded through the mounting hole 111 of guiding trestle 11 In, the guiding trestle 11 is fixed on loading platform 1,72 block of eccentric shaft shaft shoulder section directive wheel and guiding trestle 11 it Between.Swelling has tapered sleeve 8, the structure of tapered sleeve 8 between the mounting hole 111 and eccentric shaft fixed section 73 of guiding trestle 11 in the present embodiment It include: tapered sleeve ontology 81 and tapered sleeve retaining ring 82, the outside diameter of tapered sleeve ontology 81 is from one end far from tapered sleeve retaining ring 82 to close One end of tapered sleeve retaining ring 82 is gradually increased, and eccentric shaft fixed section 73 stretches out tapered sleeve 8, is set on the eccentric shaft fixed section 73 outside tapered sleeve 8 It is equipped with locking nut 9, when tightening locking nut 9, the pressure gear of locking nut 9 makes tapered sleeve 8 to directive wheel side on tapered sleeve retaining ring 82 To movement, so that the further swelling of tapered sleeve 8 is between mounting hole 111 and eccentric shaft fixed section 73.In the present embodiment, in order to Tapered sleeve 8 easy to disassemble is provided with the threaded hole 821 of disassembly on tapered sleeve retaining ring 82.When needing to dismantle tapered sleeve 8, by a spiral shell Bolt is mounted in the threaded hole 821 of tapered sleeve retaining ring 82, rotating bolt, and when bolt is withstood on guiding trestle 11, tapered sleeve 8 then can be to It is mobile far from 11 direction of guiding trestle, to be separated with mounting hole 111 and eccentric shaft fixed section 73.It thus can be to eccentric shaft 7 are adjusted.

Due to being provided with the tapered sleeve 8 of swelling, tapered sleeve 8 in the mounting hole 111 of eccentric shaft fixed section 73 and guiding trestle 11 The further swelling of energy under the pressure gear of locking nut 9 after preliminary swelling, this makes the installation between eccentric shaft 7 and guiding trestle 11 More solid and reliable, avoiding problems lead to eccentric shaft 7 and guiding branch because of the vibration generated when 1 frequent elevating movement of loading platform The case where being loosened between frame 11, to effectively ensure that loading platform 1 will not run-off the straight.In addition, there are one setting tapered sleeves 8 Advantage is: will play fixed function to eccentric shaft after the preliminary swelling of tapered sleeve 8, so as to significantly facilitate equipment installation, have Effect prevent during the installation process eccentric shaft 7 rotate.

In the present embodiment, each top guide wheel group 4 or each lower part guide wheel group 5 include three directive wheels --- and one It is directed laterally to wheel 61 outside a and two are directed laterally to wheel 62.Two in each guide wheel group are directed laterally to the installation direction of wheel 62 Be directed laterally to outside wheel 61 installation direction it is perpendicular.Two in each guide wheel group are directed laterally to wheel 62 and are respectively set The outer outside for being directed laterally to wheel 61 and being arranged at corresponding rails 3 in the two sides of corresponding rails 3, each guide wheel group.

In the present embodiment, it is directed laterally to outside two in the top guide wheel group 4 and lower part guide wheel group 5 of the same side Wheel 61, one of them is fitted with guide rail 3, there are gaps between guide rail 3 for another, and specifically, there are 5~6mm's Gap.The outer wheel 61 that is directed laterally to for fitting in the setting of guide rail 3 of two sides is arranged in diagonal line.

In the present embodiment, two in the top guide wheel group 4 of every side are directed laterally to wheel 62, one of them fits in guide rail 3 settings, there are gaps between guide rail 3 for another, specifically, there are the gap of 5~6mm, a pair of of top directive wheel of two sides The wheel 62 that is directed laterally to for fitting in the setting of guide rail 3 in group 4 is arranged in diagonal；In the lower part guide wheel group 5 of every side Two are directed laterally to wheel 62, one of them is fitted in, and the setting of guide rail 3, there are gaps between guide rail 3 for another, and usually there are 5 The gap of~6mm, in a pair of of lower part guide wheel group 5 of two sides fit in the setting of guide rail 3 be directed laterally to wheel 62 in diagonal line Direction arrangement；Two for fitting in the setting of guide rail 3 in a pair of of top guide wheel group 4 of two sides are directed laterally to the diagonal line of wheel 62 Two for fitting in the setting of guide rail 3 in arranged direction and a pair of of lower part guide wheel group 5 of two sides are directed laterally to the diagonal of wheel 62 Line arranged direction is identical.

Outer in the top guide wheel group 4 and lower part guide wheel group 5 of two sides is directed laterally to wheel 61 and is directed laterally to wheel 62 Be using the advantages of above-mentioned arragement construction: fit in guide rail 3 setting be directed laterally to wheel 62 and fit in guide rail 3 setting The outer 61 pairs of guide rails 3 of wheel that are directed laterally to form and be preferably oriented to, effectively prevent loading platform 1 to tilt, there are gaps with guide rail 3 Be directed laterally to wheel 62 and with guide rail 3 there are gap it is outer be directed laterally to wheel 61 and can effectively prevent guide rail 3 occur it is stuck therefore Barrier to greatly improve the stability of the operation of loading platform 1, and then effectively improves stacking efficiency.

Claims (7)

1. the guiding device of stacker loading platforms, comprising: be arranged in the column of loading platform setting vertically, the two sides of column are solid respectively Surely it is provided with guide rail, the guide rail of every side is matched with ipsilateral top guide wheel group and lower part guide wheel group, the top of every side Guide wheel group and lower part guide wheel group are arranged at intervals on loading platform above and below, and each guide wheel group includes several guiding Wheel, each directive wheel are installed on eccentric shaft, and eccentric shaft includes that eccentric shaft construction section, eccentric shaft shaft shoulder section and eccentric shaft are solid Determine section, the axis of eccentric shaft construction section and the eccentric axis of eccentric shaft fixed section, directive wheel is mounted on eccentric shaft construction section, partially Mandrel fixed section is threaded through in the mounting hole of the guiding trestle on loading platform, and eccentric shaft shaft shoulder section block is in directive wheel and guiding branch Between frame, it is characterised in that: swelling has tapered sleeve, the structure packet of tapered sleeve between the mounting hole and eccentric shaft fixed section of guiding trestle Include: tapered sleeve ontology and tapered sleeve retaining ring, the outside diameter of tapered sleeve ontology is from one end far from tapered sleeve retaining ring to close to tapered sleeve retaining ring One end is gradually increased, and eccentric shaft fixed section stretches out tapered sleeve, is provided with locking nut on the eccentric shaft fixed section outside tapered sleeve, is tightened lock When tight nut, locking nut pressure gear moves tapered sleeve to directive wheel direction, so that tapered sleeve is further Swelling is between mounting hole and eccentric shaft fixed section.

2. the guiding device of stacker loading platforms according to claim 1, it is characterised in that: each guide wheel group includes There are three directive wheels --- and it is directed laterally to wheel outside one and two are directed laterally to wheel, two in each guide wheel group are directed laterally to The installation direction of wheel is perpendicular with the installation direction that is directed laterally to wheel outside, and two in each guide wheel group to be directed laterally to wheel equal Corresponding guide rail two sides are separately positioned on, the outer wheel that is directed laterally in each guide wheel group is arranged at the outer of corresponding guide rail Side.

3. the guiding device of stacker loading platforms according to claim 2, it is characterised in that: the upper guide positioned at the same side Be directed laterally to wheel outside two into wheel group and lower part guide wheel group, one of them is fitted with guide rail, another with lead There are gap between rail, the outer wheel that is directed laterally to for fitting in guide rail setting of two sides is arranged in diagonal line.

4. the guiding device of stacker loading platforms according to claim 3, it is characterised in that: the top guide wheel group of every side In two be directed laterally to wheel, one of them fit in guide rail setting, there are gap, a pair of two sides between guide rail for another The wheel that is directed laterally to for fitting in guide rail setting in the guide wheel group of top is arranged in diagonal；The lower part guide wheel group of every side In two be directed laterally to wheel, one fits in that guide rail setting, there are gap, a pair of of lower parts of two sides between guide rail for another The wheel that is directed laterally to for fitting in guide rail setting in guide wheel group is arranged in diagonal；A pair of of top guide wheel group of two sides In fit in guide rail setting two diagonal line arranged directions for being directed laterally to wheel and two sides a pair of of lower part guide wheel group in Fit in guide rail setting two diagonal line arranged directions for being directed laterally to wheel it is identical.

5. the guiding device of stacker loading platforms according to claim 4, it is characterised in that: the top directive wheel of every side It is directed laterally to wheel outside two in group and lower part guide wheel group, one of them is fitted in, and guide rail is arranged, another is between guide rail There are the gaps of 5mm~6mm；Two in the top guide wheel group of every side are directed laterally to wheel, one of them fits in guide rail and sets It sets, there are the gaps of 5mm~6mm between guide rail for another.

6. the guiding device of stacker loading platforms described according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that: tapered sleeve gear The threaded hole of disassembly is provided on circle.

7. the guiding device of stacker loading platforms described according to claim 1 or 2 or 3 or 4 or 5, it is characterised in that: each lead It is movably arranged on eccentric shaft construction section by roller bearing to wheel.