CN204475934U - A kind of crossbeam telescopic type parking equipment - Google Patents

Abstract

The utility model discloses a kind of crossbeam telescopic type parking equipment, a kind of crossbeam telescopic type parking equipment, and it comprises not Mobile steel framework, Mobile steel framework, movable mechanism, elevating mechanism, vehicle-containing, security setting, electrical apparatus control system; Described a kind of crossbeam telescopic type parking equipment, is characterized in that: lower floor is former cement floor, and when upper strata vehicle does not need access, the access of lower floor's vehicle is not subject to the impact whether upper layer device and equipment thereof having vehicle, and access is convenient; When upper strata vehicle need access, lower floor's vehicle does not need mobile dodging yet, the access of upper strata vehicle is after putting in place by Mobile steel framework is movable, then completes vehicle access operation by the lifting action of elevating mechanism, simple to operation.In a detached garage, the cost of manufacture of two mechanical garages is only used on four parking spaces, saves fund, saves space.

Description

A kind of crossbeam telescopic type parking equipment

Technical field

The utility model relates to the manufacturing technology field of mechanical parking equipment, more specifically to a kind of crossbeam telescopic type parking equipment.

Background technology

At present, coming into operation of mechanical ascending and descending cross sliding type parking equipment is relatively many, account for many ratios of whole mechanical parking equipment, but the disadvantage of mechanical ascending and descending cross sliding type parking equipment is: mechanical ascending and descending cross sliding type parking equipment is except top layer or bottom, all the other each layers all will arrange an empty avoiding parking stall, use as the turnover parking stall, position during each vehicle access of each layer, waste the space, parking stall in many garages, be actually the average manufacturing cost adding each parking stall, when will in mechanical ascending and descending cross sliding type parking equipment garage during Transport Vehicle, the time consumed is more, the operation of access vehicle is more numerous, require that car owner's operationies on incoming and outgoing inventory technology is higher, when independently mechanical ascending and descending cross sliding type parking equipment needs repairing for certain, in whole independently mechanical ascending and descending cross sliding type parking equipment unit garage, the access of vehicle will directly be affected.So the service efficiency of the mechanical ascending and descending cross sliding type parking equipment put into operation is not at present also very high.

Summary of the invention

The purpose of this utility model is just to provide a kind of crossbeam telescopic type parking equipment, a kind of crossbeam telescopic type parking equipment, the average manufacturing cost on each parking space of mechanical parking equipment can be reduced further, garage does not need use to dodge parking stall setting, simplify the operation of its access vehicle, car owner's operationies on incoming and outgoing inventory technical requirements can be reduced, mutual interference degrees when upper strata access vehicle and lower floor access vehicle is further improved, reduction simultaneously when garage needs repairing to the access influence degree of vehicle in whole garage.

For reaching above-mentioned the purpose of this utility model, the technical scheme used is: a kind of crossbeam telescopic type parking equipment, and it comprises not Mobile steel framework, Mobile steel framework, movable mechanism, elevating mechanism, vehicle-containing, security setting, electrical apparatus control system;

Not Mobile steel framework in described a kind of crossbeam telescopic type parking equipment, it comprises right inside telescoping crossbeam (1), left inside telescoping crossbeam (2), motionless Steel Structure floor side member (3), gusset (4), column (5), column mounting base (6), alignment pin (7); ,

Two column mounting base (6) lower ends are arranged on cement floor, the lower end of column (5) is equipped with mounting base, the mounting base of two root posts (5) lower end is connected with two column mounting base (6) upper ends respectively, two root posts (5) are parallel to each other perpendicular to ground, right inside telescoping crossbeam (1) is connected with column (5) end on the right near the downside of rearward end, right inside telescoping crossbeam (1) and column (5) orthogonal, and form a handing-over interior angle, handing-over interior angle place is equipped with gusset (4), left inside telescoping crossbeam (2) is connected with column (5) end on the left side near the downside of rearward end, left inside telescoping crossbeam (2) and column (5) orthogonal, and form a handing-over interior angle, handing-over interior angle place is equipped with gusset (4), right inside telescoping crossbeam (1) is connected with the right-hand member of motionless Steel Structure floor side member (3) near the left surface of rearward end, left inside telescoping crossbeam (2) is connected with the left end of motionless Steel Structure floor side member (3) near the right flank of rearward end, alignment pin (6) is equipped with in the forward position of the right flank of right inside telescoping crossbeam (1), alignment pin (6) is also equipped with in the forward position of the left surface of left inside telescoping crossbeam (2),

Mobile steel framework in described a kind of crossbeam telescopic type parking equipment, it comprises front axle (8), front-wheel (9), front column (10), front longitudinal (11), right outside telescoping crossbeam (12), left outside telescoping crossbeam (13), intermediate longitudinal girder (14), floor side member (15), rear column (16), hind axle (17), trailing wheel (18);

Described right outside telescoping crossbeam (12) and left outside telescoping crossbeam (13) are all dead slot structure in band, the cross sectional dimensions of right outside telescoping crossbeam (12) interior dead slot is identical with the outline cross sectional dimensions of described right inside telescoping crossbeam (1), the cross sectional dimensions of left outside telescoping crossbeam (13) interior dead slot is identical with the outline cross sectional dimensions of described left inside telescoping crossbeam (2), its fit tolerance is loose fit, namely right inside telescoping crossbeam (1) to be made to slide smoothly in dead slot in right outside telescoping crossbeam (12) and left inside telescoping crossbeam (2) slip smoothly in dead slot in left outside telescoping crossbeam (13), the right flank of right outside telescoping crossbeam (12) has one and digs the locating slot wearing its right flank, the direction of locating slot is parallel to the length direction of right outside telescoping crossbeam (12), the left surface of left outside telescoping crossbeam (13) has one and digs the locating slot wearing its left surface, the direction of locating slot is parallel to the length direction of left outside telescoping crossbeam (13),

Based on the left apparent direction of Fig. 5, the right-hand member of front longitudinal (11) is connected with the left surface of right outside telescoping crossbeam (12) near position, front end, the right-hand member of intermediate longitudinal girder (14) is connected with the left surface of right outside telescoping crossbeam (12) middle part, the right-hand member of floor side member (15) is connected with the left surface of right outside telescoping crossbeam (12) near position, rear end, the left end of front longitudinal (11) is connected with the right flank of left outside telescoping crossbeam (13) near position, front end, the left end of intermediate longitudinal girder (14) is connected with the right flank of left outside telescoping crossbeam (13) middle part, the left end of floor side member (15) is connected with the right flank of left outside telescoping crossbeam (13) near rearward end, form day glyph framework, right outside telescoping crossbeam (12) is connected with the upper end of front column (10) near the downside at position, front end, left outside telescoping crossbeam (13) is connected with the upper end of another front column (10) near the downside at position, front end, right outside telescoping crossbeam (12) is connected with the upper end of rear column (16) near the downside at position, rear end, left outside telescoping crossbeam (13) is connected with the upper end of another rear column (16) near the downside at position, rear end, article two, front axle (8) and front-wheel (9) are all equipped with in the lower end of front column (10), article two, hind axle (17) and trailing wheel (18) are all equipped with in the lower end of rear column (16), one end of hind axle (17) in the rear column (16) on the right extend out to outside rear column (16) right flank, the external part of hind axle (17) be equipped with in movable mechanism by movable sprocket (22), one end of hind axle (17) in the rear column (16) on the left side extend out to outside rear column (16) left surface, the external part of hind axle (17) be equipped with in movable mechanism by movable sprocket (22),

Described movable mechanism is arranged on Mobile steel framework, described movable mechanism, it comprises movable mechanism motor (19), movable mechanism driving axle (20), bearing support (21), by movable sprocket (22), drive sprocket (23), chain (24), movable mechanism motor (19) is the motor of band reductor;

Mobile steel framework in described a kind of crossbeam telescopic type parking equipment, it comprises front axle (8), front-wheel (9), front column (10), front longitudinal (11), right outside telescoping crossbeam (12), left outside telescoping crossbeam (13), intermediate longitudinal girder (14), floor side member (15), rear column (16), hind axle (17), trailing wheel (18);

Described movable mechanism motor (19) is arranged on the medium position above the floor side member (15) of Mobile steel framework by its mounting seat, one end of two movable mechanism driving axles (20) is connected with movable mechanism motor (19), the other end of two movable mechanism driving axles (20) is all equipped with drive sprocket (23), two movable mechanism driving axles (20) are all contained on bearing support (21), on two sides above two bearing supports (21) are arranged on Mobile steel framework floor side member (15) by its mount pad, the external part of the hind axle (17) of Mobile steel framework is provided with by movable sprocket (22), chain (24) is contained in by movable sprocket (22) and drive sprocket (23), form Chain conveyer, the power of movable mechanism motor (19) passes to drive sprocket (23) by movable mechanism driving axle (20), drive sprocket (23) by chain (24) by power transmission to by movable sprocket (22), driven hind axle (17) and trailing wheel (18) to rotate by movable sprocket (22), then make movable mechanism by the frictional force of trailing wheel (18) and cement floor and all parts of being arranged on above Mobile steel framework and vehicle seesaw,

Elevating mechanism in described a kind of crossbeam telescopic type parking equipment, it comprises elevating mechanism motor (25), power transmission shaft (26), elevating mechanism bearing support (27), cylinder (28), fixed pulley (29), fixed pulley mount pad (30), wire rope (31-1,31-2,31-3,31-4,31-5,31-6,31-7,31-8), vehicle-containing (32-1,32-2);

Described fixed pulley (29) is contained on fixed pulley mount pad (30), two fixed pulley mount pads (30) are contained on front longitudinal (11), four fixed pulley mount pads (30) are contained on intermediate longitudinal girder (14), and two fixed pulley mount pads (30) are contained on floor side member (15);

Described elevating mechanism motor (25) is arranged on above the right outside telescoping crossbeam (12) in described Mobile steel framework, one end of power transmission shaft (26) is connected with elevating mechanism motor (25), the other end of power transmission shaft (26) is all equipped with cylinder (28), power transmission shaft (26) is all contained on elevating mechanism bearing support (27), elevating mechanism bearing support (27) is all arranged on the right outside telescoping crossbeam (12) in described Mobile steel framework by its mount pad, the upper fastening two wire rope (31-1 respectively of cylinder (28), 31-3, ), wire rope (31-2, 31-4, ), wire rope (31-5, 31-7, ) and wire rope (31-6, 31-8, ) one end, four wire rope (31-1, 31-3, 31-2, 31-4) stride across four described fixed pulleys (29) respectively, four wire rope (31-1, 31-3, 31-2, other end 31-4) is fastened on four hanging positions on described vehicle-containing (32-1) limit respectively, four wire rope (31-5, 31-7, 31-6, 31-8) stride across described another four fixed pulleys (29) respectively, four wire rope (31-5, 31-7, 31-6, other end 31-8) is fastened on four hanging positions on described vehicle-containing (32-2) limit respectively, elevating mechanism motor (25) drives cylinder (28) positive and negative rotation by power transmission shaft (26), cylinder (28) positive and negative rotation makes the wire rope on cylinder (28) realize folding and unfolding, by wire rope (31-1, 31-3, 31-2, folding and unfolding 31-4) realizes the lifting action of vehicle-containing (32-1), by wire rope (31-5, 31-7, 31-6, folding and unfolding 31-8) realizes the lifting action of vehicle-containing (32-2), by the right inside telescoping crossbeam (1) in described not Mobile steel framework and the assembling of the right outside telescoping crossbeam (12) in Mobile steel framework, left inside telescoping crossbeam (2) in described not Mobile steel framework and the assembling of the left outside telescoping crossbeam (13) in Mobile steel framework, all formed and be slidably matched.

When upper-layer parking parking stall (C) and upper-layer parking parking stall (D) does not carry out the operation accessing vehicle, lower floor's Parking Stall (A) and lower floor's Parking Stall (B) can carry out access vehicle operating individually or simultaneously, when lower floor's Parking Stall (A) and lower floor's Parking Stall (B) stop access vehicle operating, and whether deposited vehicle regardless of lower floor's Parking Stall (A) and lower floor's Parking Stall (B), upper-layer parking parking stall (C) and upper-layer parking parking stall (D) can carry out the operation accessing vehicle, the operating process that upper-layer parking parking stall (C) and upper-layer parking parking stall (D) access vehicle is: the movable mechanism motor (19) described in being started by electrical apparatus control system, the power of movable mechanism motor (19) passes to drive sprocket (23) by movable mechanism driving axle (20), drive sprocket (23) by chain (24) by power transmission to by movable sprocket (22), hind axle (17) and trailing wheel (18) is driven to rotate by movable sprocket (22), all parts making movable mechanism by the frictional force of trailing wheel (18) and cement floor again and be arranged on above Mobile steel framework and parking cars seesaw, when just upper-layer parking parking stall (C) needs access vehicle, the stroke of its motion is the half of the moved forward and backward stroke of movable mechanism, when just upper-layer parking parking stall (D) needs access vehicle, the stroke of its motion is the whole process of the moved forward and backward stroke of movable mechanism, in Fig. 1, Mobile steel framework moves forward and backward direction for (E), the width of Park Lane (F) is greater than the omnidistance length of the moved forward and backward stroke of movable mechanism.

Security setting comprises hooking assembly, electromagnetic valve and travel switch; Electrical apparatus control system comprises electric appliance control box, switch, contactor.

Upper-layer parking direction and the lower floor's parking direction parking direction of 90 degree each other; The Chain conveyer mode in movable mechanism is replaced with gear transmission mode; What replace the mode that is fixedly connected with of the right inside telescoping crossbeam (1) in not Mobile steel framework and column (5) and the left inside telescoping crossbeam (2) in not Mobile steel framework and column (5) by the connected mode that can rotate up and down of the right inside telescoping crossbeam (1) in not Mobile steel framework and column (5) and the left inside telescoping crossbeam (2) in not Mobile steel framework and the connected mode that can rotate up and down of column (5) is fixedly connected with mode; Right inside telescoping crossbeam (1) not in Mobile steel framework and left inside telescoping crossbeam (2) are all placed in the bottom of column (5) near ground, right outside telescoping crossbeam (12) simultaneously in Mobile steel framework and the also corresponding position of left outside telescoping crossbeam (13) are placed in the bottom on close ground, i.e. telescoping crossbeam lower disposed formula; Right inside telescoping crossbeam (1) not in Mobile steel framework and left inside telescoping crossbeam (2) are all placed in the bottom of column (5) on the optional position on top, and the right outside telescoping crossbeam (12) simultaneously in Mobile steel framework and left outside telescoping crossbeam (13) are also placed in corresponding bottom on the optional position on top; Upper-layer parking direction is consistent with lower floor's parking direction or become 180 degree, and upper-layer parking position and lower floor parking space are respectively one.

The beneficial effects of the utility model are: the average manufacturing cost that can reduce each parking stall of mechanical parking equipment further, simplify the operation of its access vehicle, reduce car owner's operationies on incoming and outgoing inventory technical requirements, reduce the mutual effect of access vehicle phase, reduce affects the access of vehicle in whole garage when garage needs repairing simultaneously.

accompanying drawing illustrates:

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the structure diagram front view of the utility model embodiment.

Fig. 2 is the structure diagram left view of the utility model embodiment.

Fig. 3 is the structure diagram front view of the not Mobile steel framework in the utility model embodiment.

Fig. 4 is the structure diagram left view of the not Mobile steel framework in the utility model embodiment.

Fig. 5 is the structure diagram front view of the Mobile steel framework in the utility model embodiment.

Fig. 6 is the structure diagram top view of the Mobile steel framework in the utility model embodiment.

Fig. 7 is the structure diagram front view after the Mobile steel framework in the utility model embodiment being loaded onto movable mechanism.

Fig. 8 is the structure diagram top view after the Mobile steel framework in the utility model embodiment being loaded onto movable mechanism.

Detailed description of the invention

At Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, in Fig. 8, right inside telescoping crossbeam (1), left inside telescoping crossbeam (2), motionless Steel Structure floor side member (3), gusset (4), column (5), column mounting base (6), alignment pin (7), front axle (8), front-wheel (9), front column (10), front longitudinal (11), right outside telescoping crossbeam (12), left outside telescoping crossbeam (13), intermediate longitudinal girder (14), floor side member (15), rear column (16), hind axle (17), trailing wheel (18), movable mechanism motor (19), movable mechanism driving axle (20), bearing support (21), by movable sprocket (22), drive sprocket (23), chain (24), elevating mechanism motor (25), power transmission shaft (26), elevating mechanism bearing support (27), cylinder (28), fixed pulley (29), fixed pulley mount pad (30), wire rope (31-1, 31-2, 31-3, 31-4, 31-5, 31-6, 31-7, 31-8), vehicle-containing (32-1, 32-2), lower floor's Parking Stall (A), lower floor's Parking Stall (B), upper-layer parking parking stall (C), upper-layer parking parking stall (D), Mobile steel framework moves forward and backward direction (E), Park Lane (F), movable mechanism motor (19) is the motor of band reductor, and elevating mechanism motor (25) is the motor of band reductor.

] a kind of crossbeam telescopic type parking equipment, it comprises not Mobile steel framework, Mobile steel framework, movable mechanism, elevating mechanism, vehicle-containing, security setting, electrical apparatus control system.

In embodiment Fig. 3, Fig. 4, a not Mobile steel framework in crossbeam telescopic type parking equipment, it comprises right inside telescoping crossbeam (1), left inside telescoping crossbeam (2), motionless Steel Structure floor side member (3), gusset (4), column (5), column mounting base (6), alignment pin (7);

Two column mounting base (6) lower ends are arranged on cement floor, the lower end of column (5) is equipped with mounting base, the mounting base of two root posts (5) lower end is connected with two column mounting base (6) upper ends respectively, two root posts (5) are parallel to each other perpendicular to ground, right inside telescoping crossbeam (1) is connected with column (5) end on the right near the downside of rearward end, right inside telescoping crossbeam (1) and column (5) orthogonal, and form a handing-over interior angle, handing-over interior angle place is equipped with gusset (4), left inside telescoping crossbeam (2) is connected with column (5) end on the left side near the downside of rearward end, left inside telescoping crossbeam (2) and column (5) orthogonal, and form a handing-over interior angle, handing-over interior angle place is equipped with gusset (4), right inside telescoping crossbeam (1) is connected with the right-hand member of motionless Steel Structure floor side member (3) near the left surface of rearward end, left inside telescoping crossbeam (2) is connected with the left end of motionless Steel Structure floor side member (3) near the right flank of rearward end, alignment pin (6) is equipped with in the forward position of the right flank of right inside telescoping crossbeam (1), alignment pin (6) is also equipped with in the forward position of the left surface of left inside telescoping crossbeam (2).

In embodiment Fig. 5, Fig. 6, a Mobile steel framework in crossbeam telescopic type parking equipment, it comprises front axle (8), front-wheel (9), front column (10), front longitudinal (11), right outside telescoping crossbeam (12), left outside telescoping crossbeam (13), intermediate longitudinal girder (14), floor side member (15), rear column (16), hind axle (17), trailing wheel (18);

Described right outside telescoping crossbeam (12) and left outside telescoping crossbeam (13) are all dead slot structure in band, the cross sectional dimensions of right outside telescoping crossbeam (12) interior dead slot is identical with the outline cross sectional dimensions of described right inside telescoping crossbeam (1), the cross sectional dimensions of left outside telescoping crossbeam (13) interior dead slot is identical with the outline cross sectional dimensions of described left inside telescoping crossbeam (2), its fit tolerance is loose fit, namely right inside telescoping crossbeam (1) to be made to slide smoothly in dead slot in right outside telescoping crossbeam (12) and left inside telescoping crossbeam (2) slip smoothly in dead slot in left outside telescoping crossbeam (13), the right flank of right outside telescoping crossbeam (12) has one and digs the locating slot wearing its right flank, the direction of locating slot is parallel to the length direction of right outside telescoping crossbeam (12), the left surface of left outside telescoping crossbeam (13) has one and digs the locating slot wearing its left surface, the direction of locating slot is parallel to the length direction of left outside telescoping crossbeam (13),

Based on the left apparent direction of Fig. 5, the right-hand member of front longitudinal (11) is connected with the left surface of right outside telescoping crossbeam (12) near position, front end, the right-hand member of intermediate longitudinal girder (14) is connected with the left surface of right outside telescoping crossbeam (12) middle part, the right-hand member of floor side member (15) is connected with the left surface of right outside telescoping crossbeam (12) near position, rear end, the left end of front longitudinal (11) is connected with the right flank of left outside telescoping crossbeam (13) near position, front end, the left end of intermediate longitudinal girder (14) is connected with the right flank of left outside telescoping crossbeam (13) middle part, the left end of floor side member (15) is connected with the right flank of left outside telescoping crossbeam (13) near rearward end, form day glyph framework, right outside telescoping crossbeam (12) is connected with the upper end of front column (10) near the downside at position, front end, left outside telescoping crossbeam (13) is connected with the upper end of another front column (10) near the downside at position, front end, right outside telescoping crossbeam (12) is connected with the upper end of rear column (16) near the downside at position, rear end, left outside telescoping crossbeam (13) is connected with the upper end of another rear column (16) near the downside at position, rear end, article two, front axle (8) and front-wheel (9) are all equipped with in the lower end of front column (10), article two, hind axle (17) and trailing wheel (18) are all equipped with in the lower end of rear column (16), one end of hind axle (17) in the rear column (16) on the right extend out to outside rear column (16) right flank, the external part of hind axle (17) be equipped with in movable mechanism by movable sprocket (22), one end of hind axle (17) in the rear column (16) on the left side extend out to outside rear column (16) left surface, the external part of hind axle (17) be equipped with in movable mechanism by movable sprocket (22).

In embodiment Fig. 7, Fig. 8, described movable mechanism is arranged on Mobile steel framework, described movable mechanism, it comprises movable mechanism motor (19), movable mechanism driving axle (20), bearing support (21), by movable sprocket (22), drive sprocket (23), chain (24), movable mechanism motor (19) is the motor of band reductor; In embodiment Fig. 7, Fig. 8, described Mobile steel framework, it comprises front axle (8), front-wheel (9), front column (10), front longitudinal (11), right outside telescoping crossbeam (12), left outside telescoping crossbeam (13), intermediate longitudinal girder (14), floor side member (15), rear column (16), hind axle (17), trailing wheel (18);

Described movable mechanism motor (19) is arranged on the medium position above the floor side member (15) of Mobile steel framework by its mounting seat, one end of two output shafts of movable mechanism motor (19) mechanism driving axle (20) movable with two respectively is connected, the other end of two movable mechanism driving axles (20) is all equipped with drive sprocket (23), two movable mechanism driving axles (20) are all contained on bearing support (21), on two sides above two bearing supports (21) are arranged on Mobile steel framework floor side member (15) by its mount pad, be arranged on the external part of hind axle (17) of Mobile steel framework by movable sprocket (22), chain (24) is contained in by movable sprocket (22) and drive sprocket (23), form Chain conveyer, the power of movable mechanism motor (19) passes to drive sprocket (23) by movable mechanism driving axle (20), drive sprocket (23) by chain (24) by power transmission to by movable sprocket (22), driven hind axle (17) and trailing wheel (18) to rotate by movable sprocket (22), then make movable mechanism by the frictional force of trailing wheel (18) and cement floor and all parts of being arranged on above Mobile steel framework and vehicle seesaw.

In Fig. 1, Fig. 2, described elevating mechanism, it comprises elevating mechanism motor (25), power transmission shaft (26), elevating mechanism bearing support (27), cylinder (28), fixed pulley (29), fixed pulley mount pad (30), wire rope (31-1,31-2,31-3,31-4,31-5,31-6,31-7,31-8), vehicle-containing (32-1,32-2), lower floor's Parking Stall (A), lower floor's Parking Stall (B), upper-layer parking parking stall (C), upper-layer parking parking stall (D), Mobile steel framework move forward and backward direction (E), Park Lane (F);

In embodiment Fig. 1, Fig. 2, described fixed pulley (29) is contained on fixed pulley mount pad (30), two fixed pulley mount pads (30) are contained on front longitudinal (11), four fixed pulley mount pads (30) are contained on intermediate longitudinal girder (14), and two fixed pulley mount pads (30) are contained in floor side member (15), described elevating mechanism motor (25) is arranged on above the right outside telescoping crossbeam (12) in described Mobile steel framework, one end of power transmission shaft (26) is connected with elevating mechanism motor (25), the other end of power transmission shaft (26) is all equipped with cylinder (28), power transmission shaft (26) is all contained on elevating mechanism bearing support (27), elevating mechanism bearing support (27) is all arranged on the right outside telescoping crossbeam (12) in described Mobile steel framework by its mount pad, the upper fastening two wire rope (31-1 respectively of cylinder (28), 31-3, ), wire rope (31-2, 31-4, ), wire rope (31-5, 31-7, ) and wire rope (31-6, 31-8, ) one end, four wire rope (31-1, 31-3, 31-2, 31-4) stride across four described fixed pulleys (29) respectively, four wire rope (31-1, 31-3, 31-2, other end 31-4) is fastened on four hanging positions on described vehicle-containing (32-1) limit respectively, four wire rope (31-5, 31-7, 31-6, 31-8) stride across described another four fixed pulleys (29) respectively, four wire rope (31-5, 31-7, 31-6, other end 31-8) is fastened on four hanging positions on described vehicle-containing (32-2) limit respectively, elevating mechanism motor (25) drives cylinder (28) positive and negative rotation by power transmission shaft (26), cylinder (28) positive and negative rotation makes the wire rope on cylinder (28) realize folding and unfolding, by wire rope (31-1, 31-3, 31-2, folding and unfolding 31-4) realizes the lifting action of vehicle-containing (32-1), by wire rope (31-5, 31-7, 31-6, folding and unfolding 31-8) realizes the lifting action of vehicle-containing (32-2),

In embodiment Fig. 1, Fig. 2, right inside telescoping crossbeam (1) in described not Mobile steel framework and the assembling of the right outside telescoping crossbeam (12) in Mobile steel framework, left inside telescoping crossbeam (2) in described not Mobile steel framework and the assembling of the left outside telescoping crossbeam (13) in Mobile steel framework, all formed and be slidably matched.

When lower floor's Parking Stall (A) and lower floor's Parking Stall (B) need access vehicle, be not subject to lower floor's Parking Stall (B) or lower floor's Parking Stall (A), upper-layer parking parking stall (C), whether (D) has the restriction parked cars in upper-layer parking parking stall, but upper-layer parking parking stall (C) and upper-layer parking parking stall (D) is when lower floor's Parking Stall (A) and lower floor's Parking Stall (B) need access vehicle, the operation accessing vehicle can not be carried out, namely when upper-layer parking parking stall (C) and upper-layer parking parking stall (D) does not carry out the operation accessing vehicle, lower floor's Parking Stall (A) and lower floor's Parking Stall (B) can carry out access vehicle operating individually or simultaneously, when lower floor's Parking Stall (A) and lower floor's Parking Stall (B) stop access vehicle operating, and whether deposited vehicle regardless of lower floor's Parking Stall (A) and lower floor's Parking Stall (B), upper-layer parking parking stall (C) and upper-layer parking parking stall (D) can carry out the operation accessing vehicle, the operating process that upper-layer parking parking stall (C) and upper-layer parking parking stall (D) access vehicle is: the movable mechanism motor (19) described in being started by electrical apparatus control system, the power of movable mechanism motor (19) passes to drive sprocket (23) by movable mechanism driving axle (20), drive sprocket (23) by chain (24) by power transmission to by movable sprocket (22), hind axle (17) and trailing wheel (18) is driven to rotate by movable sprocket (22), the all parts making movable mechanism by trailing wheel (18) and the frictional force of cement floor again and be arranged on above Mobile steel framework and vehicle seesaw, when just upper-layer parking parking stall (C) needs access vehicle, the stroke of its motion is the half of the moved forward and backward stroke of movable mechanism, when just upper-layer parking parking stall (D) needs access vehicle, the stroke of its motion is the whole process of the moved forward and backward stroke of movable mechanism, in Fig. 1, Mobile steel framework moves forward and backward direction for (E), the width of Park Lane (F) is greater than the omnidistance length of the moved forward and backward stroke of movable mechanism.

Claims (7)

1. a crossbeam telescopic type parking equipment, it comprises not Mobile steel framework, Mobile steel framework, movable mechanism, elevating mechanism, vehicle-containing, security setting, electrical apparatus control system, it is characterized in that: described not Mobile steel framework, it comprises right inside telescoping crossbeam (1), left inside telescoping crossbeam (2), motionless Steel Structure floor side member (3), gusset (4), column (5), column mounting base (6), alignment pin (7), two column mounting base (6) lower ends are arranged on cement floor, the lower end of column (5) is equipped with mounting base, the mounting base of two root posts (5) lower end is connected with two column mounting base (6) upper ends respectively, two root posts (5) are parallel to each other perpendicular to ground, right inside telescoping crossbeam (1) is connected with column (5) end on the right near the downside of rearward end, right inside telescoping crossbeam (1) and column (5) orthogonal, and form a handing-over interior angle, handing-over interior angle place is equipped with gusset (4), left inside telescoping crossbeam (2) is connected with column (5) end on the left side near the downside of rearward end, left inside telescoping crossbeam (2) and column (5) orthogonal, and form a handing-over interior angle, handing-over interior angle place is equipped with gusset (4), right inside telescoping crossbeam (1) is connected with the right-hand member of motionless Steel Structure floor side member (3) near the left surface of rearward end, left inside telescoping crossbeam (2) is connected with the left end of motionless Steel Structure floor side member (3) near the right flank of rearward end, alignment pin (6) is equipped with in the forward position of the right flank of right inside telescoping crossbeam (1), alignment pin (6) is also equipped with in the forward position of the left surface of left inside telescoping crossbeam (2),

Described Mobile steel framework, it comprises front axle (8), front-wheel (9), front column (10), front longitudinal (11), right outside telescoping crossbeam (12), left outside telescoping crossbeam (13), intermediate longitudinal girder (14), floor side member (15), rear column (16), hind axle (17), trailing wheel (18), described right outside telescoping crossbeam (12) and left outside telescoping crossbeam (13) are all dead slot structure in band, the cross sectional dimensions of right outside telescoping crossbeam (12) interior dead slot is identical with the outline cross sectional dimensions of described right inside telescoping crossbeam (1), the cross sectional dimensions of left outside telescoping crossbeam (13) interior dead slot is identical with the outline cross sectional dimensions of described left inside telescoping crossbeam (2), its fit tolerance is loose fit, namely right inside telescoping crossbeam (1) to be made to slide smoothly in dead slot in right outside telescoping crossbeam (12) and left inside telescoping crossbeam (2) slip smoothly in dead slot in left outside telescoping crossbeam (13), the right flank of right outside telescoping crossbeam (12) has one and digs the locating slot wearing its right flank, the direction of locating slot is parallel to the length direction of right outside telescoping crossbeam (12), the left surface of left outside telescoping crossbeam (13) has one and digs the locating slot wearing its left surface, the direction of locating slot is parallel to the length direction of left outside telescoping crossbeam (13),

The right-hand member of front longitudinal (11) is connected with the left surface of right outside telescoping crossbeam (12) near position, front end, the right-hand member of intermediate longitudinal girder (14) is connected with the left surface of right outside telescoping crossbeam (12) middle part, the right-hand member of floor side member (15) is connected with the left surface of right outside telescoping crossbeam (12) near position, rear end, the left end of front longitudinal (11) is connected with the right flank of left outside telescoping crossbeam (13) near position, front end, the left end of intermediate longitudinal girder (14) is connected with the right flank of left outside telescoping crossbeam (13) middle part, the left end of floor side member (15) is connected with the right flank of left outside telescoping crossbeam (13) near rearward end, form day glyph framework, right outside telescoping crossbeam (12) is connected with the upper end of front column (10) near the downside at position, front end, left outside telescoping crossbeam (13) is connected with the upper end of another front column (10) near the downside at position, front end, right outside telescoping crossbeam (12) is connected with the upper end of rear column (16) near the downside at position, rear end, left outside telescoping crossbeam (13) is connected with the upper end of another rear column (16) near the downside at position, rear end, article two, front axle (8) and front-wheel (9) are all equipped with in the lower end of front column (10), article two, hind axle (17) and trailing wheel (18) are all equipped with in the lower end of rear column (16), one end of hind axle (17) in the rear column (16) on the right extend out to outside rear column (16) right flank, the external part of hind axle (17) be equipped with in movable mechanism by movable sprocket (22), one end of hind axle (17) in the rear column (16) on the left side extend out to outside rear column (16) left surface, the external part of hind axle (17) be equipped with in movable mechanism by movable sprocket (22),

Described movable mechanism, it comprises movable mechanism motor (19), movable mechanism driving axle (20), bearing support (21), by movable sprocket (22), drive sprocket (23), chain (24), movable mechanism motor (19) is the motor of band reductor;

Described movable mechanism motor (19) is arranged on the medium position above the floor side member (15) of Mobile steel framework by its mounting seat, one end of two movable mechanism driving axles (20) is connected with movable mechanism motor (19), the other end of two movable mechanism driving axles (20) is all equipped with drive sprocket (23), two movable mechanism driving axles (20) are all contained on bearing support (21), on two sides above two bearing supports (21) are arranged on Mobile steel framework floor side member (15) by its mount pad, the external part of the hind axle (17) of Mobile steel framework is equipped with by movable sprocket (22), chain (24) is contained in by movable sprocket (22) and drive sprocket (23), form Chain conveyer, the power of movable mechanism motor (19) passes to drive sprocket (23) by movable mechanism driving axle (20), drive sprocket (23) by chain (24) by power transmission to by movable sprocket (22), driven hind axle (17) and trailing wheel (18) to rotate by movable sprocket (22), then make movable mechanism by the frictional force of trailing wheel (18) and cement floor and all parts be arranged on above Mobile steel framework seesaw with parking cars,

Described elevating mechanism, it comprises elevating mechanism motor (25), power transmission shaft (26), elevating mechanism bearing support (27), cylinder (28), fixed pulley (29), fixed pulley mount pad (30), wire rope (31-1,31-2,31-3,31-4,31-5,31-6,31-7,31-8), vehicle-containing (32-1,32-2);

Described fixed pulley (29) is contained on fixed pulley mount pad (30), two fixed pulley mount pads (30) are contained on front longitudinal (11), four fixed pulley mount pads (30) are contained on intermediate longitudinal girder (14), and two fixed pulley mount pads (30) are contained on floor side member (15);

Described elevating mechanism motor (25) is arranged on above the right outside telescoping crossbeam (12) in described Mobile steel framework, one end of power transmission shaft (26) is connected with elevating mechanism motor (25), the other end of power transmission shaft (26) is all equipped with cylinder (28), power transmission shaft (26) is all contained on elevating mechanism bearing support (27), elevating mechanism bearing support (27) is all arranged on the right outside telescoping crossbeam (12) in described Mobile steel framework by its mount pad, the upper fastening two wire rope (31-1 respectively of cylinder (28), 31-3, ), wire rope (31-2, 31-4, ), wire rope (31-5, 31-7, ) and wire rope (31-6, 31-8, ) one end, four wire rope (31-1, 31-3, 31-2, 31-4) stride across four described fixed pulleys (29) respectively, four wire rope (31-1, 31-3, 31-2, other end 31-4) is fastened on four hanging positions on described vehicle-containing (32-1) limit respectively, four wire rope (31-5, 31-7, 31-6, 31-8) stride across described another four fixed pulleys (29) respectively, four wire rope (31-5, 31-7, 31-6, other end 31-8) is fastened on four hanging positions on described vehicle-containing (32-2) limit respectively, elevating mechanism motor (25) drives cylinder (28) positive and negative rotation by power transmission shaft (26), cylinder (28) positive and negative rotation makes the wire rope on cylinder (28) realize folding and unfolding, by wire rope (31-1, 31-3, 31-2, folding and unfolding 31-4) realizes the lifting action of vehicle-containing (32-1), by wire rope (31-5, 31-7, 31-6, folding and unfolding 31-8) realizes the lifting action of vehicle-containing (32-2), right inside telescoping crossbeam (1) in described not Mobile steel framework and the assembling of the right outside telescoping crossbeam (12) in Mobile steel framework, left inside telescoping crossbeam (2) in described not Mobile steel framework and the assembling of the left outside telescoping crossbeam (13) in Mobile steel framework, all formed and be slidably matched,

When upper-layer parking parking stall (C) and upper-layer parking parking stall (D) does not carry out the operation accessing vehicle, lower floor's Parking Stall (A) and lower floor's Parking Stall (B) can carry out access vehicle operating individually or simultaneously, when lower floor's Parking Stall (A) and lower floor's Parking Stall (B) stop access vehicle operating, and whether deposited vehicle regardless of lower floor's Parking Stall (A) and lower floor's Parking Stall (B), upper-layer parking parking stall (C) and upper-layer parking parking stall (D) can carry out the operation accessing vehicle, the operating process that upper-layer parking parking stall (C) and upper-layer parking parking stall (D) access vehicle is: the movable mechanism motor (19) described in being started by electrical apparatus control system, the power of movable mechanism motor (19) passes to drive sprocket (23) by movable mechanism driving axle (20), drive sprocket (23) by chain (24) by power transmission to by movable sprocket (22), hind axle (17) and trailing wheel (18) is driven to rotate by movable sprocket (22), the all parts making movable mechanism by trailing wheel (18) and the frictional force of cement floor again and be arranged on above Mobile steel framework and vehicle seesaw, when just upper-layer parking parking stall (C) needs access vehicle, the stroke of its motion is the half of the moved forward and backward stroke of movable mechanism, when just upper-layer parking parking stall (D) needs access vehicle, the stroke of its motion is the whole process of the moved forward and backward stroke of movable mechanism, Mobile steel framework moves forward and backward direction for (E), the width of Park Lane (F) is greater than the omnidistance length of the moved forward and backward stroke of movable mechanism.

2. a kind of crossbeam telescopic type parking equipment according to claim 1, is characterized in that: upper-layer parking direction and the lower floor's parking direction parking direction of 90 degree each other.

3. a kind of crossbeam telescopic type parking equipment according to claim 1, is characterized in that: replace the Chain conveyer mode in movable mechanism with gear transmission mode.

4. a kind of crossbeam telescopic type parking equipment according to claim 1, is characterized in that: what replace the mode that is fixedly connected with of the right inside telescoping crossbeam (1) in not Mobile steel framework and column (5) and the left inside telescoping crossbeam (2) in not Mobile steel framework and column (5) by the connected mode that can rotate up and down of the right inside telescoping crossbeam (1) in not Mobile steel framework and column (5) and the left inside telescoping crossbeam (2) in not Mobile steel framework and the connected mode that can rotate up and down of column (5) is fixedly connected with mode.

5. a kind of crossbeam telescopic type parking equipment according to claim 1, it is characterized in that: the right inside telescoping crossbeam (1) not in Mobile steel framework and left inside telescoping crossbeam (2) are all placed in the bottom of column (5) near ground, right outside telescoping crossbeam (12) simultaneously in Mobile steel framework and the also corresponding position of left outside telescoping crossbeam (13) are placed in the bottom on close ground, i.e. telescoping crossbeam lower disposed formula.

6. a kind of crossbeam telescopic type parking equipment according to claim 1, it is characterized in that: the right inside telescoping crossbeam (1) not in Mobile steel framework and left inside telescoping crossbeam (2) are all placed in the bottom of column (5) on the optional position on top, the right outside telescoping crossbeam (12) simultaneously in Mobile steel framework and left outside telescoping crossbeam (13) are also placed in corresponding bottom on the optional position on top.

7. a kind of crossbeam telescopic type parking equipment according to claim 1, it is characterized in that: upper-layer parking direction is consistent with lower floor's parking direction or become 180 degree, upper-layer parking position and lower floor parking space are respectively one.