CN108571203B - Small-size sky parking device of hand formula - Google Patents

Abstract

The invention discloses a hand-operated small three-dimensional parking device which is divided into four parts, namely a frame part, a lifting part, a car storing and taking part and a transverse moving part. When the car stops to lift and carry the sweep, hand lift handle device drives the synchronous wheel of tooth form hold-in range drive, drives two bevel gears operation drive lead screw rotation drive and promotes and carry the sweep to rise to the assigned position, hand sideslip handle device drive tooth form hold-in range I, hand access handle device drives synchronizing wheel V through the transmission connecting rod, synchronizing wheel VI and synchronizing wheel VII drive access lead screw drive access sweep rise and accomplish the get car, hand sideslip handle device makes the sideslip frame remove the assigned position again, hand access handle device makes access sweep descend to the assigned position and accomplish the deposit car, get car opposite. The invention occupies small space and can utilize the space to the maximum extent.

Description

Small-size sky parking device of hand formula

Technical Field

The invention relates to a hand-operated small three-dimensional parking device, and belongs to the technical field of automatic parking.

Background

With the high-speed development of economy, the living standard of people is continuously improved, and the number of automobiles in recent years is increased in an explosive manner, so that huge pressure is applied to urban intersections, and particularly the problems of difficult parking and disordered parking in residential areas are continuously aggravated, and meanwhile, inconvenience is brought to people in traveling. The invention belongs to a mechanical three-dimensional parking device, which has small occupied area and higher space utilization rate per unit area, and can be applied to solve the important measure of difficult and expensive urban parking under the condition that the current urban land is increasingly tense. The three-dimensional parking device has the advantages that the space is small, the three-dimensional parking device can be integrated into a whole, the three-dimensional parking device can be randomly arranged under each building or on the urban road surface in a residential area, and the convenience condition is provided for solving the problem of difficult parking in a district with shortage of the garage under the eyes.

Disclosure of Invention

The invention solves the technical problems that: effectively relieves the difficult problem of parking. Saving land resources.

The invention is realized by adopting the following technical scheme:

a hand-operated small three-dimensional parking device is divided into four major parts, namely a frame part, a lifting part, a car storing and taking part and a transverse moving part.

The frame part consists of a side beam 32, a cross beam 33 and a fixed vehicle carrying plate 34, wherein the side beam 32 is a main body structure of the frame part, and the cross beam 33 and the fixed vehicle carrying plate 34 are welded on the side beam 32;

the lifting portions are mounted on the outer sides of the side members 32, the lifting portions being arranged vertically; the lifting part comprises a lifting car carrying plate 4, a screw guide plate 5, a screw 6, a lifting hand-shaking device 7, a tooth-shaped synchronous belt 8, a synchronous wheel 9 and a conical gear 10, wherein the screw guide plate 5 is arranged on a side beam 32, a vertical guide groove is formed in the screw guide plate 5, and the screw 6 is arranged in the vertical guide groove. The lifting car carrying plate 4 is connected with a bevel gear 10 through a screw rod 6, the screw rod 6 is arranged at the central shaft of the bevel gear 10, a synchronous wheel 9 is vertically meshed with the bevel gear 10, and the lifting hand shaking device 7 is connected with the synchronous wheel 9 through a toothed synchronous belt 8.

The transverse moving part consists of a transverse frame 1, a transverse moving hand-operated device 11, a guide pillar 12, a tooth-shaped synchronous belt I13, a synchronous wheel I14, a synchronous shaft I15, a synchronous wheel II16, a synchronous wheel III18, a tooth-shaped synchronous belt II17, a synchronous shaft II 19 and a synchronous wheel IV 20. The transverse frame 1 is arranged at the top of the frame part, and the transverse moving hand-operated device 11 is fixed on the side beam 32 through the hand-operated mounting plate 2; the guide support column 12 is arranged on the hand-operated mounting plate 2; the synchronizing shaft I15 and the synchronizing shaft II 19 are symmetrically arranged at two ends of the transverse frame 1; the two ends of the synchronizing shaft I15 are provided with a synchronizing wheel I14 and a synchronizing wheel II16; the two ends of the synchronizing shaft II 19 are provided with a synchronizing wheel III18 and a synchronizing wheel IV20; the synchronizing wheel III18 and the synchronizing wheel IV20 are connected through a tooth-shaped synchronous belt II17, and the synchronizing wheel I14 and the synchronizing wheel II16 are connected through a tooth-shaped synchronous belt II 17. The tooth-shaped synchronous belt I13 is arranged among the traversing hand-operated device 11, the guide pillar 12, the synchronous wheel I14 and the synchronous wheel IV20;

the storage and taking car part consists of a transverse moving frame 21, a storage and taking car hand-operated device 22, a transmission connecting rod 23, a synchronous wheel V24, a tooth-shaped synchronous belt III25, a synchronous wheel VI26, a tooth-shaped synchronous belt IV27, a synchronous wheel VII28, a transmission screw guide plate 29, a first transmission screw 3, a second transmission screw 30 and a storage and taking car plate 31; the transverse moving frame 21 is arranged on the transverse frame 1, and the transverse frame 1 is in sliding fit with the transverse moving frame 21; the hand shaking device 22 of the access vehicle is arranged on the outer side of the traversing rack 21, the synchronizing wheel V24, the synchronizing wheel VI26 and the synchronizing wheel VII28 are arranged on the top of the traversing rack 21, the synchronizing wheel V24 and the synchronizing wheel VI26 are connected through a tooth-shaped synchronizing belt III25, and the synchronizing wheel VI26 and the synchronizing wheel VII28 are connected through a tooth-shaped synchronizing belt IV 27; the synchronizing wheel VI26 and the synchronizing wheel VII28 are arranged on the top of the transmission screw guide plate 29, one end of the first transmission screw 3 is connected with the synchronizing wheel VI26, the other end of the first transmission screw 3 is connected with the access vehicle plate 31, one end of the second transmission screw 30 is connected with the synchronizing wheel VII28, and the other end of the second transmission screw 30 is connected with the access vehicle plate 31; the access carriage 31 is disposed between the first transmission screw 3 and the second transmission screw 30. The hand-operated device 22 of the access vehicle is connected with the synchronous wheel V24 through a transmission connecting rod 23.

The invention has small occupied space, can maximally utilize space, is safe and convenient, and is an effective means for solving the problem of urban land shortage and relieving the parking difficulty.

Drawings

Fig. 1 is a schematic view of a lifting portion.

Fig. 2 is a schematic view of a frame portion and a lateral movement portion.

FIG. 3 is a schematic view of an access portion.

Fig. 4 is a schematic view of a structure for accessing a vehicle panel.

Detailed Description

As shown in fig. 1 to 4, a hand-operated small-sized three-dimensional parking apparatus is divided into four major parts, namely a frame part, a lifting part, a car storing and taking part and a lateral moving part.

The frame part consists of a side beam 32, a cross beam 33 and a fixed vehicle carrying plate 34, wherein the side beam 32 is a main body structure of the frame part, and the cross beam 33 and the fixed vehicle carrying plate 34 are welded on the side beam 32;

the lifting portions are mounted on the outer sides of the side members 32, the lifting portions being arranged vertically; the lifting part comprises a lifting car carrying plate 4, a screw guide plate 5, a screw 6, a lifting hand-shaking device 7, a tooth-shaped synchronous belt 8, a synchronous wheel 9 and a conical gear 10, wherein the screw guide plate 5 is arranged on a side beam 32, a vertical guide groove is formed in the screw guide plate 5, and the screw 6 is arranged in the vertical guide groove. The lifting car carrying plate 4 is connected with a bevel gear 10 through a screw rod 6, the screw rod 6 is arranged at the central shaft of the bevel gear 10, a synchronous wheel 9 is vertically meshed with the bevel gear 10, and the lifting hand shaking device 7 is connected with the synchronous wheel 9 through a toothed synchronous belt 8.

The transverse moving part consists of a transverse frame 1, a transverse moving hand-operated device 11, a guide pillar 12, a tooth-shaped synchronous belt I13, a synchronous wheel I14, a synchronous shaft I15, a synchronous wheel II16, a synchronous wheel III18, a tooth-shaped synchronous belt II17, a synchronous shaft II 19 and a synchronous wheel IV 20. The transverse frame 1 is arranged at the top of the frame part, and the transverse moving hand-operated device 11 is fixed on the side beam 32 through the hand-operated mounting plate 2; the guide support column 12 is arranged on the hand-operated mounting plate 2; the synchronizing shaft I15 and the synchronizing shaft II 19 are symmetrically arranged at two ends of the transverse frame 1; the two ends of the synchronizing shaft I15 are provided with a synchronizing wheel I14 and a synchronizing wheel II16; the two ends of the synchronizing shaft II 19 are provided with a synchronizing wheel III18 and a synchronizing wheel IV20; the synchronizing wheel III18 and the synchronizing wheel IV20 are connected through a tooth-shaped synchronous belt II17, and the synchronizing wheel I14 and the synchronizing wheel II16 are connected through a tooth-shaped synchronous belt II 17. The tooth-shaped synchronous belt I13 is arranged among the traversing hand-operated device 11, the guide pillar 12, the synchronous wheel I14 and the synchronous wheel IV20;

the storage and taking car part consists of a transverse moving frame 21, a storage and taking car hand-operated device 22, a transmission connecting rod 23, a synchronous wheel V24, a tooth-shaped synchronous belt III25, a synchronous wheel VI26, a tooth-shaped synchronous belt IV27, a synchronous wheel VII28, a transmission screw guide plate 29, a first transmission screw 3, a second transmission screw 30 and a storage and taking car plate 31; the transverse moving frame 21 is arranged on the transverse frame 1, and the transverse frame 1 is in sliding fit with the transverse moving frame 21; the hand shaking device 22 of the access vehicle is arranged on the outer side of the traversing rack 21, the synchronizing wheel V24, the synchronizing wheel VI26 and the synchronizing wheel VII28 are arranged on the top of the traversing rack 21, the synchronizing wheel V24 and the synchronizing wheel VI26 are connected through a tooth-shaped synchronizing belt III25, and the synchronizing wheel VI26 and the synchronizing wheel VII28 are connected through a tooth-shaped synchronizing belt IV 27; the synchronizing wheel VI26 and the synchronizing wheel VII28 are arranged on the top of the transmission screw guide plate 29, one end of the first transmission screw 3 is connected with the synchronizing wheel VI26, the other end of the first transmission screw 3 is connected with the access vehicle plate 31, one end of the second transmission screw 30 is connected with the synchronizing wheel VII28, and the other end of the second transmission screw 30 is connected with the access vehicle plate 31; the access carriage 31 is disposed between the first transmission screw 3 and the second transmission screw 30. The hand-operated device 22 of the access vehicle is connected with the synchronous wheel V24 through a transmission connecting rod 23.

When the vehicle stops to lift the vehicle carrying plate 4, the hand-operated lifting handle device 7 drives the toothed synchronous belt 8 to drive the synchronous wheels 9, the two bevel gears 10 are driven to drive the screw rod 6 to rotate to drive the lifting vehicle carrying plate to rise to a specified position, the hand-operated traversing handle device 11 drives the toothed synchronous belt I13 to drive the synchronous wheels I14 and III20 to drive the synchronous wheels II16 and III18 through the synchronous shafts I15 and II 19 to enable the toothed synchronous belt I117 to move, then the toothed synchronous belt I13 and the toothed synchronous belt II17 drive the traversing rack 21 to transversely move to the specified position, the hand-operated vehicle storing and taking handle device drives the synchronous wheels V24 through the transmission connecting rod 23, the synchronous wheels V24 drive the synchronous wheels VI through the toothed synchronous belt V, the synchronous wheels VI are driven to drive the vehicle storing and taking plate 31 to rise to finish vehicle taking, the hand-operated traversing handle device 11 enables the traversing rack 21 to move to the specified position, and the hand-operated vehicle storing and taking plate 31 to descend to the specified position, and the hand-operated traversing handle device 22 can reversely finish vehicle taking and taking.

Claims (1)

1. A small-size sky parking device of hand formula, its characterized in that: the parking device is divided into four parts, namely a frame part, a lifting part, a car storing and taking part and a transverse moving part;

the frame part consists of a side beam (32), a cross beam (33) and a fixed vehicle carrying plate (34), wherein the side beam (32) is a main body structure of the frame part, and the cross beam (33) and the fixed vehicle carrying plate (34) are welded on the side beam (32);

the lifting part is arranged on the outer side of the side beam (32) and is vertically arranged; the lifting part consists of a lifting car carrying plate (4), a screw guide plate (5), a screw (6), a lifting hand-shaking device (7), a tooth-shaped synchronous belt (8), a synchronous wheel (9) and a conical gear (10), wherein the screw guide plate (5) is arranged on a side beam (32), a vertical guide groove is formed in the screw guide plate (5), and the screw (6) is arranged in the vertical guide groove; the lifting vehicle carrying plate (4) is connected with the conical gear (10) through a screw rod (6), the screw rod (6) is arranged at the central shaft of the conical gear (10), the synchronous wheel (9) is vertically meshed with the conical gear (10), and the lifting hand-shaking device (7) is connected with the synchronous wheel (9) through a toothed synchronous belt (8);

the transverse moving part consists of a transverse frame (1), a transverse moving hand-shaking device (11), a guide pillar (12), a toothed synchronous belt I (13), a synchronous wheel I (14), a synchronous shaft I (15), a synchronous wheel II (16), a synchronous wheel III (18), a toothed synchronous belt II (17), a synchronous shaft II (19) and a synchronous wheel IV (20); the transverse frame (1) is arranged at the top of the frame part, and the transverse moving hand-shaking device (11) is fixed on the side beam (32) through the hand-shaking mounting plate (2); the guide support column (12) is arranged on the hand-operated mounting plate (2); the synchronous shaft I (15) and the synchronous shaft II (19) are symmetrically arranged at two ends of the transverse frame (1); two ends of the synchronizing shaft I (15) are provided with a synchronizing wheel I (14) and a synchronizing wheel II (16); two ends of the synchronizing shaft II (19) are provided with a synchronizing wheel III (18) and a synchronizing wheel IV (20); the synchronizing wheel III (18) and the synchronizing wheel IV (20) and the synchronizing wheel I (14) and the synchronizing wheel II (16) are connected through a tooth-shaped synchronizing belt II (17); the tooth-shaped synchronous belt I (13) is arranged among the transverse moving hand-operated device (11), the guide pillar (12), the synchronous wheel I (14) and the synchronous wheel IV (20);

the vehicle storage and taking part consists of a transverse moving frame (21), a vehicle storage and taking hand-operated device (22), a transmission connecting rod (23), a synchronous wheel V (24), a tooth-shaped synchronous belt III (25), a synchronous wheel VI (26), a tooth-shaped synchronous belt IV (27), a synchronous wheel VII (28), a transmission screw guide plate (29), a first transmission screw (3), a second transmission screw (30) and a vehicle storage and taking plate (31); the transverse moving frame (21) is arranged on the transverse frame (1), and the transverse frame (1) is in sliding fit with the transverse moving frame (21); the hand shaking device (22) of the access vehicle is arranged on the outer side of the transverse moving frame (21), the synchronizing wheel V (24), the synchronizing wheel VI (26) and the synchronizing wheel VII (28) are arranged on the top of the transverse moving frame (21), the synchronizing wheel V (24) and the synchronizing wheel VI (26) are connected through a tooth-shaped synchronous belt III (25), and the synchronizing wheel VI (26) and the synchronizing wheel VII (28) are connected through a tooth-shaped synchronous belt IV (27); the synchronizing wheel VI (26) and the synchronizing wheel VII (28) are arranged at the top of the transmission screw guide plate (29), one end of the first transmission screw (3) is connected with the synchronizing wheel VI (26), the other end of the first transmission screw (3) is connected with the access vehicle plate (31), one end of the second transmission screw (30) is connected with the synchronizing wheel VII (28), and the other end of the second transmission screw (30) is connected with the access vehicle plate (31); the access vehicle plate (31) is arranged between the first transmission screw rod (3) and the second transmission screw rod (30); the hand-operated device (22) of the access vehicle is connected with the synchronous wheel V (24) through a transmission connecting rod (23);

when the car is parked to a lifting car carrying plate (4), the hand lifting hand shaking device (7) drives the tooth-shaped synchronous belt (8) to drive the synchronous wheel (9), the two bevel gears (10) are driven to rotate to drive the screw rod (6) to rotate to drive the lifting car carrying plate to a designated position, the hand traversing handle device (11) drives the tooth-shaped synchronous belt I (13) to drive the synchronous wheel I (14) and the synchronous wheel III (18) to drive the synchronous wheel II (16) and the synchronous wheel III (18) through the synchronous shaft I (15) and the synchronous shaft II (19), the tooth-shaped synchronous belt II (13) and the tooth-shaped synchronous belt II (17) drive the traversing frame (21) to traverse the designated position, the hand accessing handle device drives the synchronous wheel V (24) through the tooth-shaped synchronous belt V, the synchronous wheel VI passes through the tooth-shaped synchronous belt IV, the synchronous wheel VI (26) and the synchronous wheel VII (28) drive the access screw rod (30) to drive the access car plate (31) to ascend through the synchronous shaft I (15) and then the tooth-shaped synchronous belt I (13) and the tooth-shaped synchronous belt II (17) to drive the traversing frame (21) to traverse the designated position, and the hand accessing handle device can move down to the designated position, and the hand accessing device can move the hand traversing handle (21) to the designated position.