CN219491863U - Height-adjustable running rail - Google Patents

Abstract

The utility model discloses a height-adjustable operation track, which comprises an operation track, and comprises a bracket, a driving rotating shaft and an operation track lifting adjusting mechanism, wherein the driving rotating shaft arranged in the front-rear direction is arranged in the middle of the lower end of the bracket, the operation track lifting adjusting mechanism comprises a first self-locking electric control sliding groove, a first supporting plate, a first self-locking electric control sliding block, a second supporting plate, a wire pipeline, a wire wheel, a pulley block, a sling and a second wire wheel, and the upper ends of the left end face and the right end face of the bracket are respectively provided with the first self-locking electric control sliding groove which is vertically upwards arranged. The utility model has simple structure and reasonable design, can enable the running rail to be finely adjusted in the vertical direction, simplifies the positioning procedure of the running rail, and is beneficial to the accurate installation of the running rail.

Description

Height-adjustable running rail

[ field of technology ]

The utility model relates to the technical field of vertical circulating type stereo garage, in particular to the technical field of height-adjustable running rails.

[ background Art ]

Along with the continuous increase of urban automobile possession, the land and the space that urban parking occupied are bigger and bigger, the current parking area can only park a car in a sky space mostly, in order to practice thrift the land resource, vertical circulation type stereo garage has appeared, this is an intelligent mechanical parking equipment, on the traction chain, every certain distance installs a car storage bracket, the garage passes through gear motor drive mechanism, space utilization has been improved greatly, still be equipped with the operation track that is used for carrying out the direction to car storage bracket on the garage simultaneously, but present operation track is fixed installation, the position is unable removal after the installation, and operation track size is great, great size is difficult for operation track transport location yet, consequently, if want the operation track accurate installation, when the installation, operation track's transport, location process is loaded down with trivial details.

[ utility model ]

The utility model aims to solve the problems in the prior art, and provides the running rail with adjustable height, so that the running rail can be finely adjusted in the vertical direction, the positioning procedure of the running rail is simplified, and the running rail is convenient to accurately install.

In order to achieve the above purpose, the utility model provides a height-adjustable operation track, which comprises an operation track, and comprises a bracket, a driving rotating shaft and an operation track lifting adjusting mechanism, wherein the middle part of the lower end of the bracket is provided with the driving rotating shaft which is arranged in the front-back direction, the operation track lifting adjusting mechanism comprises a first self-locking electric control slide rail, a first support plate, a first self-locking electric control slide block, a second support plate, a wire guide pipeline, a wire guide wheel, a pulley block, a sling and a second wire wheel, the upper ends of the left end surface and the right end surface of the bracket are respectively provided with a first self-locking electric control slide rail which is vertically upwards arranged, the first self-locking electric control slide rail is embedded into the left end surface and the right end surface of the bracket, the left side and the right side of the bracket are respectively provided with a first support plate which is vertically arranged, A second support plate is connected between the top ends of the two first support plates, the second support plate is arranged above the support, the running rail is fixed on the first support plate, the end face of the first support plate, which is close to the first self-locking electric control slide rail, is provided with a first self-locking electric control slide block matched with the first self-locking electric control slide rail, the top end of the first self-locking electric control slide rail is provided with a wire pipeline, the wire pipeline extends downwards to the positive side of the driving rotating shaft, two ends of an inner hole of the wire pipeline are provided with wire wheels, pulley blocks are arranged in the middle of the inner hole of the wire pipeline, a coaxial second wire wheel is arranged on the driving rotating shaft, one end of each sling is fixed on the top end of the first self-locking electric control slide block, and the other end of each sling is fixed on the second wire wheel after sequentially passing through the wire wheels, the pulley blocks and the wire wheels in the wire pipeline.

Preferably, the second wire wheel comprises a third assembly pipe, a sixth bearing, a fourth assembly pipe, a wire wheel, a first outer ratchet wheel, a first pawl, a first rocker, a first gear, a first internal gear, a first driving device, a second outer ratchet wheel, a second pawl, a second rocker, a second gear, a second internal gear, a second driving device and a fifth assembly pipe, wherein the third assembly pipe is fixed on a driving rotating shaft, the left end of the outer pipe wall of the third assembly pipe is provided with a coaxial sixth bearing, the outer pipe wall of the sixth bearing is provided with a coaxial fourth assembly pipe, the outer pipe wall of the fourth assembly pipe is provided with a coaxial wire wheel, a sling is fixed in a wire groove of the wire wheel, the right end of the outer pipe wall of the third assembly pipe is provided with a coaxial first outer ratchet wheel, the left end of the inner pipe wall of the fourth assembly pipe is provided with a first rocker, the first rocker is provided with a first pawl matched with the first outer ratchet wheel, the right side of the fourth assembly pipe is provided with a coaxial first internal gear, an inner hole of the first internal gear is provided with a meshed first gear, the first gear is coaxially connected with a first rocker, the right end of the first gear is provided with a first driving device which is used for driving the first gear to rotate, the first driving device is fixed on a corresponding bracket, the outer side of the fourth assembly pipe on the left side of the wire wheel is provided with a coaxial fifth assembly pipe which is fixed on the corresponding bracket, the outer pipe wall of the fourth assembly pipe on the left side of the wire wheel is provided with a coaxial second outer ratchet wheel, the inner hole wall of the fifth assembly pipe is provided with a second rocker, the second rocker is provided with a second pawl matched with the second outer ratchet wheel, the left side of the fifth assembly pipe is provided with a coaxial second internal gear, the inner hole of the second internal gear is provided with a meshed second gear, the second gear is coaxially connected with the second rocker, the left end of the second internal gear is provided with a second driving device which is used for driving the second internal gear to rotate, the second driving device is fixed on the corresponding bracket.

Preferably, the middle part of the front end face of the support is provided with an annular large chain arranged in the vertical direction, the front end face of the annular large chain is provided with a plurality of triangular plates arranged outwards, one end of the triangular plates, which is far away from the annular large chain, is provided with an assembly bearing for installing a vehicle bracket, the bottom end of an inner hole of the annular large chain is provided with a driving sprocket for driving the annular large chain, the middle part of the driving sprocket is provided with a coaxial driving rotating shaft, the driving rotating shaft is provided with a bearing which is coaxial and connected with the support, the top end of the inner hole of the annular large chain is provided with a semicircular plate, the outer annular wall of the upper end of the semicircular plate is provided with a chute matched with the annular large chain, and the semicircular plate is fixed on the front end face of the second support plate.

The utility model has the beneficial effects that: the utility model has simple structure and reasonable design, can enable the running rail to be finely adjusted in the vertical direction, simplifies the positioning procedure of the running rail, and is beneficial to the accurate installation of the running rail; the pulley block is arranged, so that the sling can run more labor-saving; the annular large chain and the operating track lifting adjusting mechanism share one driving rotating shaft, and meanwhile, the semicircular plate is arranged on the second supporting plate, so that the tension of the annular large chain and the height of the operating track can be synchronously adjusted, and the adjusted operating track is convenient to be matched with the annular large chain; through embedding the automatically controlled slide rail of first auto-lock into support left end face, right-hand member face, even the cooperation between automatically controlled spout of first auto-lock, the automatically controlled slider of first auto-lock appears unexpected, the automatically controlled slider of first auto-lock also only can move down a little and block in the automatically controlled spout bottom of first auto-lock, and can not directly move down and break away from the automatically controlled spout of first auto-lock, do benefit to the safe operation of operation track.

The features and advantages of the present utility model will be described in detail by way of example with reference to the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a schematic view of a front view of a height adjustable running rail of the present utility model;

FIG. 2 is a schematic view of a front view of a height adjustable running rail of the present utility model;

fig. 3 is a schematic diagram of a front view of a second reel of the height-adjustable running rail of the present utility model.

[ detailed description ] of the utility model

Referring to fig. 1, 2 and 3, the height-adjustable running rail of the utility model comprises a running rail 5, and comprises a bracket 2, a driving rotating shaft 33 and a running rail lifting adjusting mechanism 50, wherein the middle part of the lower end of the bracket 2 is provided with the driving rotating shaft 33 which is arranged in the front-back direction, the running rail lifting adjusting mechanism 50 comprises a first self-locking electric control slide rail 502, a first support plate 503, a first self-locking electric control slide block 504, a second support plate 505, a wire pipeline 506, a wire wheel 5061, a pulley block 5062, a sling 5063 and a second wire wheel 507, the upper ends of the left end face and the right end face of the bracket 2 are respectively provided with a first self-locking electric control slide rail 502 which is vertically upwards arranged, the first self-locking electric control slide rail 502 is embedded into the left end face and the right end face of the bracket 2, the left side and the right side of the bracket 2 are respectively provided with a first support plate 503 which is vertically arranged, and a second support plate 505 is connected between the top ends of the two first support plates 503, the second backup pad 505 is established in support 2 top, the operation track 5 is fixed on first backup pad 503, the terminal surface that first backup pad 503 is close to the automatically controlled slide rail 502 of first auto-lock is equipped with the automatically controlled slider 504 of first auto-lock that matches with automatically controlled slide rail 502 of first auto-lock, the automatically controlled slide rail 502 top of first auto-lock is equipped with wire pipeline 506, wire pipeline 506 downwardly extending is right side to drive pivot 33, the both ends of wire pipeline 506 hole are equipped with wire wheel 5061, wire pipeline 506 hole middle part is equipped with assembly pulley 5062, be equipped with coaxial second wire wheel 507 on the drive pivot 33, hoist cable 5063 one end is fixed on the automatically controlled slider 504 top of first auto-lock, the hoist cable 5063 other end is through wire wheel 5061 in wire pipeline 506 in proper order, assembly pulley 5062, wire wheel 5061 back, hoist cable 5063 is fixed on second wire wheel 507.

Wherein the second wire wheel 507 comprises a third assembly tube 5071, a sixth bearing 5072, a fourth assembly tube 5073, a wire wheel 5374, a first outer ratchet 5075, a first pawl 50751, a first rocker 50752, a first gear 50753, a first internal gear 50754, a first driving device 50755, a second outer ratchet 5076, a second pawl 50761, a second rocker 50762, a second gear 50763, a second internal gear 50764, a second driving device 50765, and a fifth assembly tube 50760, wherein the third assembly tube 5071 is fixed on the driving shaft 33, the left end of the outer tube wall of the third assembly tube 5071 is provided with a coaxial sixth bearing 5072, the outer tube wall of the sixth bearing 5072 is provided with a coaxial fourth assembly tube 5073, the outer tube wall of the fourth assembly tube 5073 is provided with a coaxial wire wheel 5374, the slings 5063 are fixed in the wire grooves of the wire wheel 5374, the right end of the outer tube wall of the third assembly tube 5071 is provided with a coaxial first outer ratchet 5075, the left end of the inner tube wall of the fourth assembly tube 5073 is provided with a first rocker 50752, the first rocker 50752 is provided with a first pawl 50751 matched with the first outer ratchet 5075, the right side of the fourth assembling tube 5073 is provided with a coaxial first inner gear 50754, the inner hole of the first inner gear 50754 is provided with a first gear 50753 meshed with the first inner gear 50754, the first gear 50753 is coaxially connected with the first rocker 50752, the right end of the first gear 50753 is provided with a first driving device 50755 which is used for driving the first gear 50753 to rotate, the first driving device 50755 is fixed on a corresponding bracket 2, the outer side of the fourth assembling tube 5073 at the left side of the wire wheel 5374 is provided with a coaxial fifth assembling tube 50760, the outer wall of the fourth assembling tube 5073 at the left side of the wire wheel 5374 is provided with a coaxial second outer ratchet 5076, the inner wall of the fifth assembling tube 50760 is provided with a second rocker 50762, the second rocker 50762 is provided with a second pawl 50761 matched with the second outer ratchet 5076, the left side of the fifth assembling tube 50760 is provided with a coaxial second inner gear 50764, the inner hole of the second internal gear 50764 is provided with a second gear 50763 which is meshed with the second gear 50763, the second gear 50763 is coaxially connected with a second rocker 50762, the left end of the second internal gear 50764 is provided with a second driving device 50765 for driving the second internal gear 50764 to rotate, and the second driving device 50765 is fixed on the corresponding bracket 2.

Wherein, the terminal surface middle part is equipped with the big chain 3 of annular that the direction set up from top to bottom before the support 2, the terminal surface is equipped with a plurality of set-square 31 that outwards set up before the big chain 3 of annular, the one end that the big chain 3 of set-square 31 kept away from is equipped with the assembly bearing 314 that is used for installing the vehicle bracket, the big chain 3 of annular hole bottom is equipped with the drive sprocket 32 that is used for driving the big chain 3 of annular, drive sprocket 32 middle part is equipped with coaxial drive pivot 33, be equipped with coaxial and the bearing that links to each other with support 2 on the drive pivot 33, the big chain 3 of annular hole top is equipped with semicircle board 34, be equipped with on the outer rampart of semicircle board 34 upper end with the big chain 3 matched with spout of annular, semicircle board 34 is fixed at the terminal surface before the second backup pad 505.

The working process of the utility model comprises the following steps:

in the working process of the height-adjustable running rail, all parts of the height-adjustable running rail are connected to the PLC, and all parts are controlled by the PLC to run;

the first step: the second wire wheel 507 is adjusted to enable the second wire wheel 507 to be in a wire collecting state, the first driving device 50755 and the second driving device 50765 respectively drive the first inner gear 50754 and the second inner gear 50764 to rotate so as to drive the first rocking bar 50752 and the second rocking bar 50762 to rotate, then the first rocking bar 50752 rotates to enable the first pawl 50751 to clamp the first outer ratchet 5075, meanwhile, the second rocking bar 50762 rotates to enable the second pawl 50761 to be far away from the second outer ratchet 5076, the second pawl 50761 and the second outer ratchet 5076 do not interfere with the wire wheel 5374 to operate, the wire wheel 5374 can only rotate in one direction, the wire wheel 5374 can be conveniently collected by the driven rotating shaft 33, for example, the wire wheel 5374 can only rotate anticlockwise, but the driven rotating shaft 33 can rotate clockwise and anticlockwise, relative rotation is not generated between the third assembling tube 5071 and the fourth assembling tube 5073 when the driven rotating shaft 33 rotates clockwise, and the wire wheel 5374 rotates along with the rotating shaft of the driven rotating shaft 33;

and a second step of: starting the driving rotating shaft 33, and driving the rotating shaft 33 to rotate so as to drive the wire wheel 5374 to take up the wire, wherein the first support plate 503 and the second support plate 505 are lifted;

and a third step of: after the first support plate 503 and the second support plate 505 are lifted to proper heights, the first self-locking electric control sliding chute 502 and the first self-locking electric control sliding block 504 are matched with a self-locking structure which is beneficial to locking the first support plate 503, so that the height of the first support plate 503 is limited;

fourth step: after the height adjustment of the running rail 5 is completed, the first rocker 50752 rotates to enable the first pawl 50751 to be far away from the first outer ratchet 5075, meanwhile, the second rocker 50762 rotates to enable the second pawl 50761 to clamp the second outer ratchet 5076, the rotation of the wire wheel 5374 is limited, the rotation of the third assembly tube 5071 is not limited, and meanwhile, the rotation of the third assembly tube 5071 does not interfere with the rotation of the wire wheel 5374;

fifth step: when the wire wheel 5374 pays out, the first rocking bar 50752 rotates to enable the first pawl 50751 to be far away from the first outer ratchet 5075, and when the first support plate 503 and the second support plate 505 are under the dead weight, the wire wheel 5374 can pay out automatically, and the first support plate 503 and the second support plate 505 move downwards under the dead weight.

The utility model has simple structure and reasonable design, can enable the running rail to be finely adjusted in the vertical direction, simplifies the positioning procedure of the running rail, and is beneficial to the accurate installation of the running rail; the sling 5063 is more labor-saving to operate by arranging the pulley block 5062; the tension of the annular large chain 3 and the height of the running rail 5 can be synchronously adjusted by enabling the annular large chain 3 and the running rail lifting adjusting mechanism 50 to share one driving rotating shaft 33 and simultaneously installing the semicircular plate 34 on the second supporting plate 505, so that the adjusted running rail 5 is convenient to be matched with the annular large chain 3; by embedding the first self-locking electric control slide rail 502 into the left end face and the right end face of the bracket 2, even if the cooperation between the first self-locking electric control slide rail 502 and the first self-locking electric control slide block 504 is unexpected, the first self-locking electric control slide block 504 is only slightly downwards clamped at the bottom end of the first self-locking electric control slide rail 502, and cannot be directly downwards separated from the first self-locking electric control slide rail 502, so that the safe operation of an operation rail is facilitated.

The above embodiments are illustrative of the present utility model, and not limiting, and any simple modifications of the present utility model fall within the scope of the present utility model.

Claims (3)

1. Height-adjustable running rail contains running rail (5), its characterized in that: comprises a bracket (2), a driving rotating shaft (33) and a running rail lifting adjusting mechanism (50), the middle part of the lower end of the bracket (2) is provided with the driving rotating shaft (33) which is arranged in the front-back direction, the running rail lifting adjusting mechanism (50) comprises a first self-locking electric control sliding rail (502), a first supporting plate (503), a first self-locking electric control sliding block (504), a second supporting plate (505), a wire guide pipeline (506), a wire guide wheel (5061), a pulley block (5062), a sling (5063) and a second wire guide wheel (507), the upper end of the left end face and the upper end face of the bracket (2) are respectively provided with a first self-locking electric control sliding rail (502) which is vertically upwards arranged, the first self-locking electric control sliding rail (502) is embedded into the left end face and the right end face of the bracket (2), the left side and the right side of the bracket (2) are respectively provided with a first supporting plate (503) which is vertically arranged, a second supporting plate (505) is connected between the top ends of the two first supporting plates (503), the second supporting plate (505) is arranged above the bracket (2), the running rail (5) is fixed on the first supporting plate (503), the first supporting plate (503) is close to the first end face, the first self-locking electric control sliding rail (502) is provided with the first self-locking electric control sliding rail (502) which is vertically arranged, wire pipeline (506) downwardly extending to drive pivot (33) positive side, the both ends of wire pipeline (506) hole are equipped with wire wheel (5061), wire pipeline (506) hole middle part is equipped with assembly pulley (5062), be equipped with coaxial second wire wheel (507) on drive pivot (33), hoist cable (5063) one end is fixed on first automatically controlled slider (504) top of auto-lock, hoist cable (5063) other end is in proper order through wire wheel (5061) in wire pipeline (506), assembly pulley (5062), wire wheel (5061) back, hoist cable (5063) are fixed on second wire wheel (507).

2. The height adjustable running rail of claim 1, wherein: the second wire wheel (507) comprises a third assembling pipe (5071), a sixth bearing (5072), a fourth assembling pipe (5073), a wire wheel (5374), a first outer ratchet wheel (5075), a first pawl (50751), a first rocker (50752), a first gear (50753), a first internal gear (50754), a first driving device (50755), a second outer ratchet wheel (5076), a second pawl (50761), a second rocker (50762), a second gear (50763), a second internal gear (50764), a second driving device (50765) and a fifth assembling pipe (50760), the third assembling pipe (5071) is fixed on the driving rotating shaft (33), the left end of the outer pipe wall of the third assembling pipe (5071) is provided with a coaxial sixth bearing (5072), the outer pipe wall of the sixth bearing (5072) is provided with a coaxial fourth assembling pipe (5073), the wall of the fourth assembling pipe (5073) is provided with a coaxial wire wheel (5374), the wire groove of the fixed wheel (5374) is provided with a wire groove of the second ratchet wheel (5071), the inner pipe wall of the third assembling pipe (5092) is provided with a coaxial inner gear (5073), the right end of the fourth outer pipe (5073) is provided with a coaxial inner gear (5073), the outer pipe wall of the fourth ratchet wheel (5073) is matched with the first inner pipe (5075), the inner hole of the first internal gear (50754) is provided with a first gear (50753) meshed with the first rocker (50752), the first gear (50753) is coaxially connected with the first rocker (50752), the right end of the first gear (50753) is provided with a first driving device (50755) which is used for driving the first gear (50753) to rotate, the first driving device (50755) is fixed on a corresponding support (2), the outer side of a fourth assembling pipe (5073) on the left side of a wire wheel (5374) is provided with a coaxial fifth assembling pipe (50760), the fifth assembling pipe (50760) is fixed on a corresponding support (2), the outer pipe wall of the fourth assembling pipe (5073) on the left side of the wire wheel (5374) is provided with a coaxial second outer ratchet (5076), the inner hole wall of the fifth assembling pipe (50760) is provided with a second rocker (50762), the second rocker (50761) is provided with a second pawl (50761) matched with the second outer ratchet (5076), the left side of the fifth assembling pipe (50760) is provided with a coaxial second internal gear (50764), the second inner gear (50764) is coaxially arranged on the second rocker (50762) and the inner hole wall of the second rocker (50760) is provided with the second rocker (5095) corresponding to rotate, and the inner hole wall (5095) is rotatably connected with the second inner hole (50973).

3. The height adjustable running rail of claim 1, wherein: the middle part of the front end surface of the bracket (2) is provided with an annular large chain (3) which is arranged in the up-down direction, the front end surface of the annular large chain (3) is provided with a plurality of triangular plates (31) which are arranged outwards, one end of each triangular plate (31) far away from the annular large chain (3) is provided with an assembly bearing (314) for installing a vehicle bracket, the bottom end of an inner hole of the annular large chain (3) is provided with a driving chain wheel (32) for driving the annular large chain (3), the middle part of the driving chain wheel (32) is provided with a coaxial driving rotating shaft (33), the driving rotating shaft (33) is provided with a bearing which is coaxial and connected with the bracket (2), the top end of an inner hole of the annular large chain (3) is provided with a semicircular plate (34), the outer annular wall of the upper end of the semicircular plate (34) is provided with a chute matched with the annular large chain (3), and the semicircular plate (34) is fixed on the front end surface of the second supporting plate (505).